KR101891766B1 - A Manufacture Of Moxe Cautery Or Moxa Cautery Organization For No Smoke - Google Patents

Abstract

The present invention relates to a smokeless mugwort carbonization device by indirect heat and a manufacturing method for smokeless mugwort, minimizing a loss of an original using the same. According to the present invention, a natural mugwort leaf is processed by being compressed by being carbonized by the indirect heat without using an ingredient supplement agent and an additional bonding agent. So, pure effect of the natural mugwort leaf is maintained, and moisture of the mugwort is maintained. So, the smokeless mugwort carbonization device induces viscosity of moxa cautery. Therefore, a user can conveniently use the smokeless mugwort carbonization device by the indirect heat by dividing the moxa cautery in various sizes and various shapes. Specifically, the smokeless mugwort carbonization device comprises: a hopper (10) receiving the natural mugwort leaf (1); a supply unit (20) having a screw and leading a downward movement and mixing of the natural mugwort leaf; a carbonization unit (30) discharging the carbonized natural mugwort leaf to the outside by carbonizing the natural mugwort leaf transferred from the supply unit, by the indirect heat, wherein the carbonization unit (30) has the screw; and a heating unit (40) contributing to shape conservation and volume reduction of the natural mugwort leaf. The manufacturing method for smokeless mugwort, minimizing a loss of an original comprises a main material input step (S10), a mugwort leaf mixing step (S20), a mugwort leaf transferring step (S30), a carbonization unit heating step (S40), and a mugwort leaf carbonization step (S50).

Description

Technical Field [0001] The present invention relates to a method of manufacturing a lead-free mugwort carbonizer by indirect heat and a method of manufacturing lead-

The present invention relates to a lead-free mugwort carbonization apparatus by indirect heat and a method of manufacturing lead-free mugwort using the same, and more particularly to a method of carbonizing a natural leafworm by indirect heat without using a binder and a component auxiliary agent, , It maintains the pure efficacy of natural lepidoptera as well as it causes smokes during combustion of moxa fumi and does not scatter when the lumpy residue breaks down. Especially, it keeps moisture of mugwort and induces viscosity in moxa, The present invention relates to a lead-free mugwort carbonization apparatus using indirect heat and a method of manufacturing lead-free mugwort that minimizes the loss of wastes using the same.

One of the traditional oriental medical treatments is moxibustion, which treats diseases by burning herbs or medicines in the hemorrhoids or lesions of the body surface, or by applying heat to the body, and processing the mugwort, which has excellent efficacy on the human body, Moxa is usually used for treatment.

The moxibustion used in this way is developed and sold by professional companies in various types and processing methods. In recent years, lead-free moxibustion has been mainly developed to suppress the smoke generated during combustion.

For example, Korean Patent Laid-Open No. 10-2005-0049533 entitled " Moxibustion Production Method ", which is published in Korean Patent Publication No. 10-2005-0049533, , Heavenly river, etc., are added to produce lead-free moxibustion.

As another example, Korean Patent No. 10-0998411 entitled " Method for manufacturing lead-free moxa and moxa sprouting apparatus ", which is disclosed in Korean Patent Publication No. 10-0998411, The far-infrared ray-emitting mineral is mixed with water and molded by a mold.

The above-mentioned conventional art has a common point that the materials used for moxa sputum are all composed of powder. For example, moxibustion is treated in a state where it is burnt on a part of the body and burned for a long time, so that it is desirable to maintain the processed form at least until all the moxibustion is burned. On the other hand, in order to process and maintain the shape of moxa, it is necessary to add a binder such as loess powder, alginate and the like since the material itself needs viscosity.

However, the additive added as above causes a harmful combustion substance to be generated in the human body due to the burning of moxa, and a large amount of ash is generated after the combustion is completed. Especially, all of the existing moxibusters are not 100% moxa due to the addition of binders and various kinds of adjuvants.

For the above reasons, there is an urgent need for a manufacturing method of moxa, which is not only made of natural mugwort, but also can maintain the original molded shape until the combustion is completed and no smoke is generated during combustion.

Korean Patent Publication No. 10-2005-0049533 "Manufacturing Method of Moxa Mushroom" Korean Patent No. 10-0998411 entitled " Manufacturing Method of Lead-Free Moxibustion and Moxibustion Machine "

The present invention has been made in order to more positively solve the above problems, and it is an object of the present invention to provide a method for manufacturing lead-free moxibustion which is not scattered when smoke is generated or coagulated residues are crumbled during combustion of moxa, Which is composed of only natural lepidoptera, is a problem to be solved.

Another problem is to provide a technique for smoothly interlocking with each other without using a binder in the manufacturing process of lead-free moxibustion.

In addition, it is another task to provide the product so that it can be used regardless of the type of moxibustion provided in various types and forms by dividing the finished moxibustion into a desired size and molding it into various shapes.

In order to achieve the above object, the present invention provides a method for manufacturing a lead-free mugwort carbonizer by indirect heat and a method for manufacturing lead-free mugwort that minimizes the loss of the mugwort using the same.

The upper unleaded mugwort carbonization apparatus includes a hopper 10 supplied with natural leaf worms 1, a supply unit 20 vertically communicating with the hopper and equipped with a screw to induce stirring and downward movement of natural leaf worms, A carbonization part 30 which is extended through the side of the carbonization part and discharges the natural lepidocytes, which are carried from the supply part, by indirect heat, (40) which induces warming of the natural lepidocytes contained in the carbonized portion, thereby contributing to the reduction of the volume or shape of the natural lepidolite.

The method of manufacturing lead-free mugwort includes a step (S10) of injecting a main raw material (1) which is washed and then pulverized and supplied to a hopper (10), and a step A step S30 of transferring the natural lepidopterous grains downwardly to change the feeding direction horizontally; and a step of heating the outer surface of the carbonized portion by the heating unit 40 to indirectly (S40) heating the carbonized portion to form heat, and a green leaf carbonization step (S50) carbonizing the natural lepidolite moving horizontally by the indirect heat formed in the carbonized portion.

According to the present invention having the above-described constitution, it is possible to produce moxa but without using a binder, and since it is produced only from natural lepidoptera, it has an effect of maintaining the efficacy of 100% pure mugwort.

In addition, since it is manufactured by carbonization method without adding a separate binder and ingredient auxiliary agent, it is possible to maintain the shape of the first moxibustion until the smoke is generated when the combustion of the moxa spark occurs or after the lumpy residue is broken, .

1 is a cross-sectional view of a lead-free mugwort carbonization apparatus according to a preferred embodiment of the present invention;
FIG. 2 is a flowchart sequentially illustrating a method for manufacturing lead-free moxibustion to minimize the loss of wastes using the lead-free mugwort carbonization apparatus of FIG. 1;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

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BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. And throughout this specification, like reference numerals refer to like elements throughout.

The present invention relates to a lead-free mugwort carbonization apparatus by indirect heat, and a method of manufacturing lead-free mugwort that minimizes loss of wastes using the same.

Above all, natural lepidoptera is carbonized indirectly by compression and processing without using separate binder and ingredient adjuvant. It keeps the pure efficacy of natural lepidoptera as well as smokes when smoke is burned or the lumpy residue is scattered In particular, the method of manufacturing lead-free mugwort carbonization device by indirect heat which can induce viscosity to moxa and keeps the moisture of mugwort and divides the user into various sizes and shapes, and a manufacturing method of lead-free mugwort .

FIG. 1 is a cross-sectional view of a device for carbonizing and discharging natural warts pulverized into a predetermined size by indirect heat, according to a preferred embodiment of the present invention.

As shown in FIG. 1, the lead-free mugwort carbonization apparatus of the present invention includes a hopper 10 supplied with natural leaf worms, a supply unit 20 for inducing downward movement while stirring the supplied natural leaf wort, (30) for heating the carbonized portion, and a heating portion (40) for supplying heat to the carbonated portion.

The upper hopper 10 has a rectangular tubular shape in which the space becomes gradually narrower from the upper part to the lower part in order to supply a large amount of natural lepisis pulverized in a predetermined size.

On the other hand, the vibration device 11 is attached to the hopper 10 to vibrate in real time, thereby guiding the natural lepidoptery containing moisture to be supplied smoothly without sticking to the inner surface of the hopper.

The upper supply unit 20 safely transports the natural leafwood supplied from the hopper 10 to the carbonization unit 30 and the supply unit 20 of the present invention is vertically inserted into the bottom of the hopper 10 The natural wormwood supplied from the hopper is taken over.

Particularly, the supply part 20 of the present invention is further provided with a screw having a spiral wing in its inner space, and the natural lepidoptera falling from the hopper is naturally transferred to the carbonization part 30 along the wing surface of the screw, The screw is rotated by a driving motor to induce the natural lepidocel containing water to be continuously conveyed downward without attaching to the blade surface.

In addition, since the screw of the present invention has a plurality of through holes or protrusions in a predetermined pattern on the wing surface, natural leprosy is induced to be interlocked with each other, and natural lepidociles containing moisture are attached to the wing surface, This actively prevents the phenomenon.

The upper carbonization unit 30 is connected to the lower end of the supply unit so as to be in-line horizontally, and one side of the carbonization unit is coupled to the supply unit and the other side is coupled to the discharge unit. The upper carbonization unit 30 is equipped with a screw rotating by a drive motor in the same manner as the supply unit 20, and transfers the natural leaflet provided by the supply unit to the discharge unit.

Also, since the screw of the carbonization part 30 includes a plurality of through holes or uniformly arranged protrusions on the blade surface like the screw of the supply part 20, the natural lepidocytes are intertwined with each other in the inner space of the carbonization part, And is forced to be discharged in a pressurized state by a constant pressure.

The upper heating unit 40 heats the outer surface of the carbonization unit in a state where the plurality of heat supply units 41 are arranged at regular intervals in the carbonization unit to serve as heat for applying the heat to the carbonization unit 30, The heat generated by the indirect heat carbonizes the natural lepidoptera contained in the internal space of the carbonization part.

On the other hand, the carburetor 30 continuously agitates the natural lepidocarbons undergoing carbonization while the screw mounted in the inner space rotates to induce the natural lepidolite to progressively carbonize, while providing a constant pressing force to the carbonized natural lepidolite So that the carbonized natural leaflets can be discharged in a state where they are coupled to each other.

A method for producing unleaded wormwood which minimizes loss of raw materials by using the apparatus for producing lead-free mugwort by indirect heat having the above-described structure is as follows.

The method of manufacturing unleavened wormwood according to the present invention comprises the steps of injecting main material (SlO), blossoming agitation step (S20), lobster feeding step (S30) and carbonization part heating step (S40 ) And carbonization of leaf wax (S50), and lead-free wormwood is produced by sequentially immersing the above steps.

In step S10, natural lobster (1) is introduced into a hopper (10) of an apparatus for producing lead-free mugwort by indirect heat. More specifically, fresh lobster collected from freshly harvested lepidoptera is washed with water and pulverized And then injected into the hopper.

In the conventional method for producing moxa fungus, basically, three kinds of materials such as a binder for inducing occlusion of the main ingredient mugwort powder and mugwort powder and an auxiliary agent for inducing a separate function are constituted. However, in the present invention, only 100% It is a big feature.

The upper leaf blade stirring step S20 includes a series of all the processes from entering the natural lepidoptery feeding unit 20 supplied from the hopper 10 to reaching the carbonated part 30.

The upper leaf blade stirring step S20 includes a natural leaf blade entry step S21 in which natural leafhopper enters the hopper 10 from the hopper 10 and a natural leaf blade mixing step S21 in which the natural leaf blade is agitated by the rotation of the screw, Step S22, and a natural dropping step S23 in which the natural leaf worm is moved downward along the spiral wing surface of the screw while being mixed.

Especially, in the natural lepidoculture mixing step (S22), micro-hot air is always supplied from the outside so as not to stick to the wing surface of the screw and the inner surface of the supply part by the liquid which flows from the cut surface of natural lepidolite, So that the natural leaf worm is smoothly stirred and moved downward along the wing surface of the screw.

In the upper lepidoptery transfer step S30, the natural lepidoptera falling from the supply part 20 is taken over by the carbonization part 30, and the carbonated part includes a series of processes in which the natural lepidolite transferred from the supply part 20 is transferred horizontally to the discharge part.

The carbonization unit heating step S40 includes a heat supply step S41 for heating the outer surface of the carbonization unit 41 by a plurality of heat supply means 41 disposed at equal intervals on the outer surface of the carbonization unit 30, And a carbonization condition forming step (S42) for heating the air distributed in the inner space of the carbonization unit through the passage.

For example, the upper heat supply step S41 generates heat of about 350 to 450 DEG C in order to form a carbonization condition in the inner space of the carbonization unit, so that the carbonization condition formation step (S42) A heat of 400 DEG C is formed.

In step S50, the carbonization step is performed by the natural lepidolite contained in the inner space of the carbonization part. In particular, the carbonization step is carried out by rotating the screw mounted on the carbonization part, (S52) for transferring the carbonized natural lepisis to the discharge portion and for pressing the carbonized natural lepidopoeque to each other, and a pressurized natural leafworm And discharging to the discharge portion (S53).

The carbonization step heating step S40 and the leaf wax carbonization step S50 are sequentially carried out in the order of the main material addition step S10, the leaf blade stirring step S20, the leaf blade feeding step S30, The produced unleaded wormwood has the following form.

The natural lepidopteras freshly harvested are washed with washing water and then the natural lepidopsis thawed to a particle size of 10 to 20 mm is introduced into the hopper 10 and then passed through the feeding section 20 and the carbonization section 30 to a temperature of 300 to 400 ° C Which is carbonized by indirect heat.

<Lead-free wormwood prepared by the method of Example 1>

The mugwort, which is produced as described above, can be mated with each other because it contains the original moisture without using a separate binder. Since it is made only with natural lavender of 100% pure water without using a binder and a special auxiliary agent, Lead-free, poisonous gas does not occur during combustion.

Particularly, since the heating section 40 disposed on the outer surface of the carbonization section 30 is constructed by the indirect heating method in which the outer surface of the carbonization section is heated, the natural lepidoptera accommodated in the carbonated section is carbonized to positively maintain the raw material of natural lepidoptera On the other hand, since it is produced by carbonization method without adding any binder and ingredient auxiliary agent, it maintains the original moxa form until it is collected even after combustion is completed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10. Hopper 20. Supply
30. Carbonization part 40. Heating part
S10. Substance input step S20. Stirring step
S30. Leaflet transfer step S40. Carbonization step heating step
S50. Leaf wax carbonization step

Claims (2)

A hopper 10 fed vertically with the hopper and having a screw mounted therein for feeding the natural lepidocytes supplied from the hopper while inducing downward movement of the hopper 10; A carbonization unit 30 extending through a side of the supply unit, a carbonization unit 30 having a screw installed therein for transferring the natural lepidocapitate discharged downward from the supply unit, And a heating unit (40) for carbonizing the natural lepidocytes by heating the air distributed inside the carbonized part by heat supply,
The upper hopper 10 is further provided with a vibration device 11 for continuously hitting the hopper so that the natural lepidoptery containing moisture is not adhered to the inner surface of the hopper by washing,
The upper supply part 20 forms a plurality of through holes and protrusions of a certain pattern on the screw blade surface mounted on the inside to induce the occlusion of natural lepidoptera, and the natural lepidoptery containing moisture is attached to the blade surface or between the screw and the supply part Intercepting,
The upper heating unit 40 is disposed at equal intervals on the lower surface of the outer surface of the carbonization unit to induce a temperature difference between the upper and lower air spaces in the carbonization space to generate water vapor to maintain moisture Characterized in that carbonization is carried out by indirect heat. delete

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