KR102069447B1 - A Manufacture Of Moxe Cautery Or Moxa Cautery Organization For No Smoke - Google Patents

Abstract

The present invention relates to a manufacturing method of a functional smokeless moxa capable of easy division and mold by enhanced binding forces, which finely grinds natural leaf wormwood having moisture maintained by a predetermined amount, carbonizes the same with indirect heat to provide smokeless moxa having no smoke in combustion while maintaining efficacies of natural leaf wormwood perfectly, and adds a functional specific binding agent to improve a binding force between natural leaf wormwoods, thereby enabling various size division and mold while aggressively maintaining an initial mold state without scattering or breaking lump residues in combustion. More specifically, the method comprises: a leaf wormwood processing step (S10) of grinding natural leaf wormwoods having moisture maintained by a predetermined amount; a mixture adding step (S20) of adding phenol-based plant oil and residual material preserving agent to the ground natural leaf wormwood to generate a smokeless material (A); a leaf wormwood stirring step (S30) of injecting the smokeless material (A) into a supplying unit (20) of a carbonizing device (100), pressing the same through a rotating screw, injecting citric acid continuously, and stirring the same; and a leaf wormwood carbonizing step (S40) of carbonizing the smokeless material (A) conveyed to a carbonizing unit (30) having a carbonizing condition formed by indirect heat provided by a heating unit (40), and promoting an acidic reaction of the citric acid.

Description

A Manufacture Of Moxe Cautery Or Moxa Cautery Organization For No Smoke

The present invention discloses a method for producing lead-free mugwort, and more particularly, by finely pulverizing natural leafwort in a state in which a certain amount of moisture is maintained and then shaping it into a specific shape or carbonizing it through indirect heat in a non-molded state. In addition to providing smoke-free moxa without smoke during combustion, while maintaining the self-efficacy of natural leaf wormwood completely, the addition of functional special binders is added to improve the bond between natural leaf wormwood. The present invention relates to a method for producing functional lead-free moxa that can be easily divided and molded by the strengthening of the bonding force, which enables the molding, but also maintains the original molding state without breaking or scattering the aggregated particles during combustion.

In general, mugwort is excellent in preventing or treating various diseases such as digestive system, respiratory and circulatory system, urinary and genital organs, gynecology, endocrine dysfunction, nervous system, otolaryngology, pediatrics and skin care.

Herbal treatment using moxa moxibustion has been proposed in order to exhibit the above effects, and has been published as a method of manufacturing moxa moxa as disclosed in Korean Patent Publication No. 10-2005-0049533.

This technique is a technique prepared by adding herbal medicines such as moxa mugwort powder, clay powder, dermis powder, acupuncture, neck flavor, frankincense, injin, health, and cheonsanggang, including mugwort charcoal powder.

However, the prior art is merely a technical idea of adding a variety of herbal medicines to the mugwort powder, and accordingly could not eliminate the smoke generated when the mugwort combustion.

Various developments of smokeless mugwort moxibustion that can solve such a problem are currently in progress, and Patent Publication No. 10-0998411 "Method of manufacturing leadless mugwort moxa and moxa moxibustion apparatus" is published as an example of the developed smokeless mugwort moxa.

The prior art provides a method of forming by mold after mixing alginate, sodium lauryl sulfate, far-infrared radiation mineral with water in a mixed powder consisting of wormwood powder or charcoal powder.

The above technique can reduce the amount of smoke generated by moxibustion to a certain level, but it is not satisfactory. Above all, the above technique is provided as a finished product having a mold shape determined during the manufacturing process. Another inconvenience was the inability to set moxibustion of the desired size.

As a result, including the prior art exemplified above, a series of lead-free mosquitoes currently on the market is not only inefficient in function of lead-free, but also inconvenient to use the specifications or sizes set in the manufacturing process. In addition, the existing moxibustion loses the bonding strength between the combustion process and the first form is easily broken, and the broken residue is scattered in the air, making it difficult to collect.

Therefore, the industry is eager to develop lead-free mugwort that can be easily set to a desired size and shape while maintaining its own efficacy of natural mugwort.

Publication No. 10-2005-0049533 "Method moxibustion method" Korean Patent Publication No. 10-0998411 "Method of manufacturing lead-free moxa and moxa moxibustion apparatus"

The present invention has been created in order to more actively solve the above problems, and to form a specific shape or lead-free moxibustion of natural leaf wormwood in a specific shape or not formed as well as to provide the self-efficacy of natural leaf wormwood The main challenge is to provide a method for producing lead-free moxa without smoke during combustion while maintaining as much as possible.

In addition, the present invention is another problem to provide a lead-free moxa moxibustion is not limited to the moxa moxibustion provided in any particular standard as the user is freely molded in various forms while dividing the moxa freely.

In addition, the present invention is another problem to implement so that the residues of the mugwort moxibustion in the air by maintaining the initial forming state of the burnt moxibustion as it is.

In order to achieve the above problems, the method of producing a functional smokeless mugwort moxa easy to divide and form by the enhanced binding force proposed in the present invention is as follows.

Smokeless mugwort moxibustion of the present invention is a leaf mugwort processing step (S10) to grind in a state in which a certain amount of moisture of natural leafwort is maintained; and adding a phenolic vegetable oil and a residual oil retainer to the ground natural leafwort to produce a smokeless material (A) Mixture addition step (S20) to; and, after adding the non-combustible material (A) to the supply unit 20 of the carbonization device 100, pressurizing through the rotating screw while continuously spraying citric acid to stir (S30) And, mugwort carbonization step (S40) to promote the acidic reaction of citric acid while the carbonization of the non-combustible material (A) transferred to the carbonization unit 30 is a carbonization condition is formed by indirect heat provided by the heating unit 40 (S40) It is characterized by consisting of.

In addition, the above-mentioned leaf mugwort processing step (S10) is a surface moisture residual amount of 50 to 60% based on the total residual amount of the wash water remaining on the surface of the washed natural leaf mugwort, 100% of the moisture content of the natural leaf mug possessed by itself It is characterized by drying for 30 to 60 minutes in the shade so that the moisture content is 80 to 90% of the basis.

In addition, the lead-free material (A) is characterized in that it is composed of 80 to 90% by weight of the natural leafwort, 5 to 12% by weight of phenolic vegetable oil, and 5 to 8% by weight of the residual oil.

In addition, the remnant of the stomach is characterized by consisting of biodiastatase, prozyme, rapase, pancellase, panprocin, pancreatin, bromelain, and cellulase.

According to the present invention having the configuration as described above, by producing the carbonized in the state of the surface moisture and its own moisture of the natural leaf wormwood, it is possible to actively express its efficacy by maintaining its own components of the natural leaf wormwood, As the moisture and viscosity remain, the user can divide into a desired size and then mold into various shapes, thereby being able to use universally without being limited to any specific standard of moxa.

In addition, in the present invention, by adding phenolic vegetable oil, residue retaining agent, and citric acid to the crushed natural leaf wormwood to a certain size, the binding force is actively improved by adding the phenolic vegetable oil, the residual oil and citric acid to the leaf wormwood itself. It is also expected that the effect of ensuring ease of collection and ease of maintenance after use is also expected.

In addition, the production method of lead-free mugwort moxibustion proposed in the present invention is more effective because it can be provided in a variety of forms without being limited to any one by forming a natural leaf mug or carbonized as it is not formed.

1 is a cross-sectional view of a smokeless mugwort carbonization device configured by a preferred embodiment of the present invention.
FIG. 2 is a flowchart sequentially listing a method for preparing a functional smokeless mugwort moxa easily divided and formed by a strengthening bonding force using the smokeless mugwort mugwort apparatus of FIG. 1.

Hereinafter, with reference to the accompanying drawings will be described in a batch about the configuration of the present invention and its effects, effects.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various different forms, and only the present embodiments may make the disclosure of the present invention complete and common knowledge in the technical field to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. And like reference numerals refer to like elements throughout the specification.

The present invention discloses a method for producing lead-free mugwort moxibustion that is extremely easy to divide and form as the binding force between natural leaf mugs increases.

Above all, the present invention provides smokeless mugwort moxibustion that does not generate smoke during combustion while maintaining the self-efficacy of the native leaf mugwort as it is carbonized through indirect heat after finely pulverizing natural leafwort with a certain amount of moisture. In addition, by adding additional functional special binders, the bond strength between natural leafworms is improved, which enables various sizes to be divided and formed, but also enables to actively maintain the original molding state without breaking or scattering the aggregated residue during combustion. Note that it is related to the production method of functional lead-free moxa moth easy to divide and form by the combined bonding force.

1 is a cross-sectional view of a device for carbonizing smokeless mugwort mugwort according to a preferred embodiment of the present invention, and carbonizing it with indirect heat while pressing and stirring natural leaf mugwort crushed to a certain pressure.

The lead-free mugwort carbonization apparatus of the present invention as shown in Figure 1 is a hopper (10) receiving the leaf wormwood; and the supply unit 20 to induce downward movement while stirring the supplied natural leaf wormwood; and carbonizing the natural wormwood And a carbonization unit 30; and a heating unit 40 for supplying heat to the carbonization unit.

In relation to the above carbonization device is outlined as follows.

The hopper 10 is configured in the shape of a tubular tubular shape (해지는) that gradually narrows the space from the top to the bottom in order to receive a large amount of natural leaf crushed to a certain size.

The upper supply unit 20 is vertically introduced into the hopper and serves to move the natural leafworm down by the built-in screw while stirring at a constant pressure.

The upper carbonization portion 30 extends through the inner side of the supply portion and serves to discharge the material transferred from the supply portion by indirect heat to the outside while carbonizing by indirect heat.

The heating unit 40 is configured by an indirect heat method for heating the air distributed in the internal space of the carbonization unit by heating the outer surface of the carbonization unit in a state in which a plurality of heat supply means 41 are arranged at equal intervals in the carbonization unit, The heat formed by indirect heat carbonizes the natural leaf wormwood contained in the carbonization interior space.

2 is a flowchart sequentially listing the method for producing lead-free mugwort in accordance with a preferred embodiment of the present invention using the above carbonization apparatus.

The method of producing lead-free mugwort moth proposed by the present invention comprises a leaf mugwort processing step (S10); and a mixture addition step (S20); and a mugwort stirring step (S30); and a mugwort carbonization step (S40).

Stomach leaf processing step (S10) is a step of grinding in a state in which a certain amount of moisture of natural leafwort.

Stomach leaf processing step (S10) is performed sequentially washing and drying operations to maintain a certain amount of moisture in natural leaf wormwood. In particular, the present invention is to dry the natural leaf mugwort in the shade for about 30 to 60 minutes to make the surface moisture residual amount 50 to 60% based on 100% of the total residual amount of the wash water remaining on the surface, the moisture content 100 that the natural leaf mug possesses itself Based on the percentage of water, the moisture content is 80 to 90%.

The reason for maintaining the moisture on the surface and its own moisture as set above is to prevent the loss of the components of the natural leafwort carbonization, and to maintain the bond strength of the mugwort by keeping the mucus of the leaves.

For example, if the above drying time is exceeded, the residual water content and water content of the surface may not meet the above standard values.If the residual water content and water content are not enough, the natural components of natural leaf mug will evaporate while carbonizing. The problem arises that the bond strength between the deterioration.

On the other hand, if the drying time is less than the above, the carbonization is not made properly, accordingly the smoke caused by moisture occurs when burning the moxibustion containing a large amount of water to lose the function of smokeless moxa.

Therefore, in order to actively give smoke-free to moxa moxibustion, the residual water content of the wash water is 50-60% on the surface of natural leaf mugwort, and the moisture content of natural leaf mugwort is 30-60 minutes in the shade to be 80-90%. Drying is the most preferred condition.

Example 1 below is a comparative analysis of the smoke-free and self-constituent content of mugwort moxibustion according to drying conditions.

*Psalter

Specimen 1: Washed and dried crushed natural leafworms in the shade for 10-20 minutes.

Specimen 2: After washing, the ground natural leaf cucurbit was dried in the shade for 30 to 60 minutes.

Specimen 3: After washing, the ground natural leaf mug was dried in the shade for 70 to 120 minutes.

* Measuring device used for experiment

-Moisture meter: Use moisture meter (DSH-50-10) developed by BN Korea.

-Component measuring instrument: using the component analyzer of Agricultural Technology Center

<Table of Comparative Analysis of Smoke-free and Self-Containing Contents of Mugwort According to Drying Conditions>

As shown in Table 1, the moisture content of Specimens 1, which had a slightly shorter drying time, was measured very high. Accordingly, about 67.72% were generated based on the amount of smoke generated when the Specimen 1 combusted. On the contrary, specimen 3, which had a longer drying time, had little moisture remaining in the natural mugwort, and during the carbonization process, some of the mugwort burned, producing a level of defective products that could not be sold. In addition, more than 50% of the components of leaf mugwort evaporated during the carbonization process, losing the function of mugwort.

On the other hand, the specimen 2 processed as a preferred embodiment of the present invention was measured 52.72 ~ 59.5%, the water content of 82.34 ~ 89.05% of the surface residual amount of moisture, smoke was generated only 3.15% during combustion. In addition, specimen 2 together with specimen 1 was found to be completely maintained without losing its own components of leaf wormwood.

The above mixture addition step (S20) is a step of generating a non-combustible material (A) by adding a phenolic vegetable oil and a residual oil to the crushed natural leaf wormwood.

Here, the phenolic vegetable oil refers to an oil that can be obtained from the cashew nut shell during the cashew nut production process. To further explain the cashew nut oil (CNSL), anacardic acid (60) -65%), cardol (15-20%), cardanol (10%) and some methylcardol, where two hydroxyl and phenol derivatives, cardol, are used to determine the vesicant activity and toxicity of CNSL. Cause. And the method of extracting the CNSL can be divided into solvent extraction method and technical extraction method, in the present invention, when the technical extraction method using methanol and ammonia, cardol recovery is easier to use the technical extraction method.

And remnant retainer prevents the risk of burns by improving internal ignition while reducing external ignition of moxa, thereby preventing the risk of burns and further burning the internally and externally to form the first moxibustion after combustion. It will be actively maintained to facilitate the collection.

In particular, the phenolic vegetable oil is coated on every one of the moxibustion particles to reduce the flash point while prolonging the burning time of the mugwort, thereby providing a subtle heat. Blowing problem occurs, but since the residual oil retaining agent actively provides a binding force to the moxa and residues, phenol-based vegetable oils and residues must be applied together.

On the other hand, the components constituting the residue-retaining agent mentioned above are as follows.

The gastric residue was cultured in 15 ~ 30% by weight of biodiastatase, which was purified by culturing filamentous fungi of Aspergillus genus, and in the wheat bran inoculated with the fungus Aspergillus melleus, and extracted enzyme was produced. Cellulose, starch and protein with 20 to 25% by weight of prozyme prepared from low temperature, vacuum dried at low temperature, 10 to 12% by weight of rapase decomposing vegetable fat, and Trichoderma Koningi, a filamentous fungus. 10-12% by weight of pancellase decomposing, 10-12% by weight of panprocin, an enzyme obtained by culturing Aspergillus Niger, a type of fungus, and a material extracted by compressing the juice or stem of pineapple. It comprises 7 to 8% by weight of bromelain containing, 7 to 8% by weight of pancreatin, which is an enzyme preparation secreted from pancreatic exocrine cells of animals, and 6 to 8% by weight of cellulase that degrades fibrin.

The lead-free material (A) is configured as described above is composed of 80 to 90% by weight of the natural leafwort, 5 to 12% by weight of phenolic vegetable oil, and 5 to 8% by weight of the remainder.

For example, when the phenolic vegetable oil exceeds the reference value, an excessive coating is formed on the particles of natural leafwort, and carbonization is not performed properly, thereby losing lead-free function. In addition, if the residue retainer also exceeds the reference value, excessive viscosity is formed in the moxa moxibustion during the stirring process in the supply unit 20 and the carbonization unit 30, an excessive load is applied to the natural leafwort by the compression of the natural leafworm itself and moisture This may cause a problem to be lost. On the other hand, when the phenolic vegetable oil and the residue retainer do not meet the standard, it is difficult to expect the improvement of the binding force of the present invention.

Therefore, the above mixing ratio is a very important prerequisite.

Below is a table comparing the performance of non-combustible materials according to the addition of the mixture.

Psalm 1: Moxa moth consisting only of natural wormwood.

Specimen 2: mugwort with phenolic vegetable oils and residual oils.

<Comparison Table of Functionality of Mugwort with Different Mixtures>

As shown in Table 2 above, mugwort added with phenolic vegetable oil and residue retainer was completely carbonized compared to mugwort produced only with pure natural leaf mugwort, and was able to maintain its own components having 97% natural leaf mugwort. In addition, the residue retainer prevents the loss of moisture and mucus of natural leaf wormwood to promote a better bonding force, leading to the split molding of moxa.

<Comparison of Mugwort Functionality According to Addition of Mixture>

As shown in Table 3 above, the addition amount of the phenolic vegetable oil and the residual oil retainer also greatly affects the function of moxa. As shown in the graph above, as the addition amount of the phenolic vegetable oil and the residual oil-retaining agent does not meet the reference value, the binding force and the lead-free function of the present invention cannot be improved, and as the addition amount exceeds the reference value, the improved binding force and lead-free property are gradually lost. It can be seen from the experiment.

The above wormwood agitation step (S30) is a step of stirring by continuously spraying citric acid while pressing the non-combustible material (A) into the supply unit 20 of the carbonization device 100 and pressurized through a rotating screw.

First, the above wormwood agitation step (S30) includes a series of all processes until the lead-free material (A) introduced from the hopper 10 enters the supply unit 20 and reaches the carbonization unit 30, the hopper ( 10) the raw material entering step (S31) that enters the lead-free material into the supply unit 20, the material mixing step (S32) for stirring so that the entered lead-free material does not agglomerate with each other by the rotation of the screw, and the lead-free material is mixed with the screw It consists of a material falling step (S33) to move downward along the spiral wing surface.

In particular, the mixing step (S32) of the above material is to supply the lukewarm air from the outside at all times so as not to stick to the wing surface of the screw and the inner surface of the supply by the liquid flowing out of the cutting surface of the natural leafworm, thereby drying in real time the lost liquid from the cutting surface Natural wormwood to be stirred and moved smoothly along the blade surface of the screw.

On the other hand, citric acid is a weak organic acid that plays an important role in the aerobic metabolism of all living organisms, in particular acts as a compound involved in the physiological oxidation of carbohydrates. Gastric citric acid reacts with the carbon component possessed by the natural leafworm to form a mucus of a certain concentration, and serves to actively increase the bond strength between the pulverized leafworm by heating the carbon mucus rapidly.

The above wormwood carbonization step (S40) is a step of promoting the acidic reaction of citric acid while carbonization of the unburned material (A) transferred to the carbonization unit 30 is formed by the indirect heat provided by the heating unit 40 is carbonized conditions .

On the other hand, the present invention may further include the step of forming a leaf wormwood to form a specific shape of the natural leaf wormwood before the leaf wormwood carbonization step, the carbonization process for both the state of forming the natural leaf wormwood in a specific shape or not According to the implementation can be provided in more various forms without being limited to any one object.

The above step wormwood carbonization step (S40) is the carbonized portion 30 is taken over by the natural leaf wormwood falling from the supply unit 20, the carbonized portion includes a series of processes to horizontally transfer the take over the natural leaf wormwood to the discharge portion, in particular the carbonized portion ( 30) a heat supply step S41 in which a plurality of heat supply means 41 disposed on the outer surface at equal intervals heats the outer surface of the carbonization part, and the air distributed in the inner space of the carbonization part by passing the heat of the heat supply means through the outer surface of the carbonization part; And a carbonization condition forming step (S42) of heating.

The heat supply step (S41) generates heat of about 350 to 450 ℃ to form a carbonization condition in the carbonization unit internal space, and accordingly, the carbonization condition forming step (S42) is about 300 ~ 400 ℃ in the internal space of the carbonization unit Heat is formed.

The non-combustible material (A), which enters the inside of the carbide where the internal temperature rises due to indirect heat, is gradually moved horizontally while being supplied with a constant pressure by a screw mounted horizontally in the inside of the carbide, and continued by the elevated heat inside. Carbonization takes place. At this time, the internal heat actively improves the binding force between the residue retainer collected in the unburned material (A) and the natural leaf wormwood crushed by citric acid is acidic reaction.

Smoke-free material (1) produced only from 100% pure natural leaf mugwort proposed by the present invention from the above process, and a smoke-free material having an increased binding force in which phenolic vegetable oil and residue-retaining agent and citric acid are added to the ground natural leaf mugwort ( 1) is provided.

Example 3 below is a real picture of the smokeless mugwort moxa produced in a preferred embodiment of the present invention, and a general mugwort mochi on the market.

* Mushrooms on the market

-Dry freshly harvested natural leaf mugs and grind them into powder.

-Add distilled water and binder to the pulverized leaf mugwort and shape into mugwort.

<General moxibustion on the market>

As the above-mentioned general moxa moxibustion does not have any moisture on its own, its self-bonding strength is significantly reduced as it burns, and it is easily broken in the first form. From this, residue is generated and scattered in the air, making it difficult to collect. Problems occur.

* Lead free moxa of the present invention

-Wash the freshly collected natural leaf wormwood with washing water, and then dry it in the shade for 30 ~ 60 minutes and grind it to a particle size of 10 ~ 20mm.

-Add phenolic vegetable oil and residue retainer to crushed natural leafwort to produce smokeless material (A).

-After introducing the lead-free material (A) into the supply unit 20 through the hopper 10, while stirring the citric acid continuously and stirring under constant pressure.

-Carbonization of the lead-free material stirred with citric acid by indirect heat of 300 ~ 400 ℃ promotes the oxidation reaction of citric acid, thereby improving the binding power of the lead-free material.

<Lead free mugwort prepared as a preferred embodiment of the present invention>

The lead-free mugwort moxibustion proposed by the present invention as shown in the above picture contains moisture enough to be grasped by the naked eye, and has a dark green color since it contains its own components. Natural moxa moxibustion of the present invention containing a certain amount of water as described above is almost no smoke occurs during combustion, it can be used by the user to easily divide the molding to the desired size by moisture and viscosity.

In addition, even after combustion, the original molding form is retained as it is, so that the remnants do not scatter, and the collection is very easy.

Lead-free wormwood prepared as described above can be interlocked with each other because it contains the natural moisture, smokeless, toxic gases do not occur during combustion.

According to the present invention having the configuration as described above, by producing the carbonized in the state of the surface moisture and its own moisture of the natural leaf wormwood, it is possible to actively express its efficacy by maintaining its own components of the natural leaf wormwood, As the moisture and viscosity remain, the user can divide into a desired size and then mold into various shapes, thereby being able to use universally without being limited to any specific standard of moxa.

In addition, in the present invention, by adding a phenolic vegetable oil, a residual oil retaining agent and citric acid to the crushed natural leaf wormwood to a certain size to actively improve the bonding force on the leaf wormwood itself after the combustion is completed, the aggregated residues are not broken or scattered in the first molding state It is also expected that the effect of ensuring ease of collection and ease of maintenance after use is also expected.

In addition, the production method of lead-free mugwort moxibustion proposed in the present invention is more effective because it can be provided in a variety of forms without being limited to any one by forming a natural leaf mug or carbonized as it is not formed.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments may be made by those skilled in the art. Should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

S10. Leaf Mugwort Processing S20. Mixing step
S30. Leafworm stirring step S40. Leafwort Carbonization Stage
10. Hopper 20. Supply Section
30. Carbonization part 40. Heating part
A. Lead free material

Claims (4)

Leaf mugwort processing step of grinding in a state in which a certain amount of moisture of natural leafwort (S10);
Adding a phenol-based vegetable oil and a residual oil retainer to the pulverized natural leaf wormwood to produce a non-combustible material (A) (S20);
Leafworm agitation step (S30) of continuously injecting and stirring citric acid while pressing the lead-free material (A) into the supply unit 20 of the carbonization apparatus 100 and then pressurizing it through a rotating screw;
Leafworm carbonization step (S40) of promoting the acidic reaction of citric acid while carbonization of the unburned material A transferred to the carbonization unit 30 in which carbonization conditions are formed by indirect heat provided by the heating unit 40;
Method for producing a functional lead-free moxa moth easy to split and mold by the reinforced bonding force, characterized in that consisting of.
The method of claim 1,
The above step of the mugwort processing step (S10) is to make the surface moisture residual amount 50 ~ 60% based on the total residual amount of the wash water remaining on the surface of the natural leaf mug washed 100%, based on the moisture content of the natural mugwort itself 100% Method for producing functional lead-free mugwort moxibustion is easy to split and mold by strengthening the bonding strength, characterized in that the drying is 30 to 60 minutes in the shade so that the water content is 80 to 90%.
The method of claim 1,
The above smokeless material (A) is divided by reinforced binding force, characterized in that it is composed by mixing 80 to 90% by weight of natural wormwood, 5 to 12% by weight of phenolic vegetable oils, and 5 to 8% by weight of the residue-retaining agent Method of producing functional lead-free moxa moth and easy molding.
The method of claim 1,
The gastric retentive agent is composed of biodiastatase, prozyme, rapase, panselase, panprocin, pancreatin, bromelain, and cellulase. Method of producing functional lead-free moxa moth easy to divide and form.

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