KR20160142961A - Making apparatus of moxa for cautery - Google Patents

Abstract

The present invention relates to a tool for producing moxa for cautery including: a plate-shaped lower mold having a predetermined thickness; at least one receiving groove formed to be recessed downward from an upper end of the lower mold; a molding frame formed in a shape corresponding to the receiving groove, inserted into the receiving groove, and having an internal storage space; a first through-hole formed at the center of a lower end of the receiving groove and formed from the lower end of the receiving groove to a lower end of the lower mold; a second through-hole formed at the center of a lower end of the molding frame and formed from a lower end inside the molding frame to an outside surface of the molding frame; a plate-shaped upper mold having a predetermined thickness, formed above the lower mold, and driven in a vertical direction; a pressing unit formed on a lower end surface of the upper mold and inserted into the molding frame to press a processing object stored in the molding frame; and a guide rod vertically formed at the center of a lower end of the pressing unit and passing through the first through-hole in response to the driving of the upper mold.

Description

{Making apparatus of moxa for cautery}

More particularly, the present invention relates to a mugwort producing section for producing a small mugwort for mulching by means of an upper mold, a lower mold, a mold, and a pressing section so that a plurality of small mugwort can be simultaneously produced, The present invention relates to a mugwort manufacturing tool for easily removing mugwort from a mold.

Moxibustion is one of the herbal remedies that treat sickness by moxibustion, and it uses mainly mugwort, which is a kind of mugwort.

In the conventional method of treating moxibustion, which has been used for a long time, the moxa wax is rubbed to make a moxa for a certain type of moxa, and then placed on the affected part.

The mugwort used in this conventional method has a disadvantage that it is easily crumbled because it is produced by rubbing with the hand of a person, and there are many disadvantages of the material because the mugwort is abundantly generated during the manufacturing process.

In addition, the current moxibustion treatment method is spreading to folk medicine according to the development of information and education, and the use of moxibustion moxibustion is increased, so that the demand for moxibustion moxibustion is increasing due to direct moxibustion treatment at home.

In this connection, a mugwort manufacturing plant (Patent Application No. 10-2010-0124103) has been proposed, but it is not only difficult to press the mugwort molding with a uniform force, but also because of inadvertent use, There is a problem that the pressurizing mouth is disengaged, and there is a problem that a plurality of moxa for moxibustion can not be produced.

Korean Patent Application No. 10-2010-0124103

The mugwort producing section of the present invention is characterized in that a plurality of casting molds are provided on a lower mold and a machining portion capable of pressing a workpiece inside the molding die is formed on the upper mold, The object of the present invention is to provide a mugwort manufacturing facility.

It is another object of the present invention to provide a mugwort manufacturing tool capable of pressing a constant pressure irrespective of the loading capacity of a workpiece inside a molding die by forming an elastic portion having elasticity on the upper end of the pressing portion.

The present invention also provides a mugwort manufacturing tool for forming a mugwort which is capable of easily separating a workpiece from a molding die by forming a second through hole inner diameter formed in the molding die larger than an inner diameter of the first through hole formed in the lower die, .

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention, which are not mentioned here, can be clarified to those skilled in the art from the following description It can be understood.

The moxa manufacturing machine according to the present invention comprises a lower mold of a plate-like shape having a predetermined thickness, at least one seating groove formed to be downwardly recessed from the upper end of the lower mold, A first through hole formed at the bottom center of the seating groove and penetrating from a lower end of the seating groove to a lower end of the lower mold; A second through hole formed to pass from an inner lower end of the forming die to an outer side of the forming die, an upper die formed in a plate-like shape having a predetermined thickness on the lower die, A pressing portion which is formed on the lower end surface of the upper mold and inserted into the forming die to press the workpiece stored in the forming die, To be formed in a vertical direction, it characterized in that according to driving of the upper mold which comprises a guide rod which penetrates into the first aperture.

The grip portion is formed to be spaced apart from the lower end of the grip portion by a predetermined space to facilitate gripping by the user. .

And an elastic portion that generates an elastic force is formed between the upper surface of the inner side of the insertion groove and the upper surface of the pressing portion, And pressurizing the workpiece inside the forming part with the same pressure.

Wherein a support portion protruding in a direction of a lower portion of the upper mold is formed on a lower end surface of the upper mold where the insertion groove is formed to guide movement of the pressing portion and a groove And a guide protrusion protruding from the outer surface of the pressing portion is formed on the outer surface of the pressing portion and the guide protrusion is moved along the guide line.

And the inner diameter of the first through-hole and the second through-hole are formed such that the inner diameter of the first through-hole is smaller than the inner diameter of the second through-hole.

The moxibustion manufacturing tool of the present invention is characterized in that a plurality of molding molds are provided in a lower mold and a machining portion capable of pressing a workpiece inside the molding die is formed in the upper mold so that a plurality of moxibustion moxibustion can be manufactured at the same time .

Further, an elastic portion having an elastic force is formed at the upper end of the pressing portion, so that a constant pressure can be applied regardless of the loading capacity of the workpiece inside the molding die.

Further, the inner diameter of the second through-hole formed in the forming die is formed to be larger than the inner diameter of the first through-hole formed in the lower die, so that the workpiece can be easily removed from the forming die.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side cross-sectional view showing a moxibustion-producing mouthpiece of a first embodiment of the present invention. FIG.
Fig. 2 is a side sectional view showing a moxibustion-producing mouthpiece of a second embodiment of the present invention. Fig.
Fig. 3 is a bottom plan view of the lower mold showing the mugwort producing section of the first embodiment of the present invention. Fig.
FIG. 4 is a plan view showing another embodiment of the grip portion of the moxa manufacturing tool according to the present invention. FIG.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent by reference to an embodiment which will be described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

≪ Embodiment 1 >

The moxa manufacturing machine according to the first embodiment of the present invention comprises a lower mold 110 of a plate-like shape having a predetermined thickness and at least one seating groove 113 formed downward from the upper end of the lower mold 110, (120) formed in a shape corresponding to the seating groove (112) and inserted into the seating groove (112) and having a storage space formed therein; A first through hole 114 penetrating from the lower end of the seating groove 112 to the lower end of the lower mold 110 and a second through hole 114 formed in the center of the lower end of the forming mold 120, A second through hole 122 formed to penetrate from an inner lower side to an outer side surface of the forming die 120 and a second through hole 122 formed in a plate-like shape having a thickness on the upper side of the lower die 110, (130), a lower mold (130), and the mold (120 And a guide portion 140 formed in a direction perpendicular to the center of the lower end of the pressing portion 140 and extending through the first through hole 114 as the upper mold 130 is driven, And a rod (150).

In the moxibustion manufacturing tool according to the first embodiment of the present invention, the lower mold 110 is formed. The lower mold 110 is formed in a plate-like shape having a predetermined thickness. That is, the lower mold 110 is formed in a plate-like shape and serves to form a supporting force.

At the upper end of the lower mold 110, a seating groove 112 is formed. The seating groove 112 is formed at the upper end of the lower mold 110 and is recessed downward from the upper end of the lower mold 110. That is, the seating groove 112 is formed at the upper end of the lower mold 110, and serves to seat the forming mold 120 described below.

At least one of the seating grooves 112 is formed on the upper end of the lower mold 110. That is, a plurality of the seating grooves 112 are formed on the upper end of the lower mold 110 so that a plurality of mugwort can be manufactured by the molding frame 120 described below.

In the seating groove 112, a forming mold 120 is formed. The forming die 120 is formed in a shape corresponding to the seating groove 112 and is detachably inserted into the seating groove 112. That is, the forming die 120 is seated in the seating groove 112, and a storage space for storing workpieces is formed therein. This is because, when the workpiece stored in the forming die 120 is pressed by the pressing portion 140 to be described below, the formation of the workpiece is determined by the shape of the forming die 120.

In addition, the forming mold 120 may be formed in various shapes such as a cylinder, a square, and a mortar, and the shape of the mounting recess 112 may be formed to correspond to the shape of the molding mold 120 do.

A handle 124 is formed on the upper end of the forming die 120. The handle 124 is protruded outward from the upper end of the forming die 120. That is, the handle 124 is protruded by a predetermined length in the outer direction of the molding die 120, and serves to allow the user to easily hold the molding die 120.

The handle 124 is spaced apart by a predetermined distance between the lower end of the handle 124 and the upper end of the lower mold 110. That is, the handle 124 is protruded upward from the upper end of the lower mold 110, and is formed to facilitate the user's gripping.

A first through hole 114 is formed in the center of the lower end of the seating groove 112. The first through hole 114 is formed in the center of the lower end of the seating groove 112 and penetrates from the lower end of the seating groove 112 to the lower end of the lower mold 110. That is, the first through hole 114 is formed as a hole penetrating from the seating groove 112 to the lower end of the lower mold 110, and the guide rod 150, which will be described below, can be inserted and inserted. This is because when the workpiece (wet wormwood powder) stored in the mold 120 is pressed by the pressing portion 140 to be described below, the moisture of the workpiece is pressed by the pressure to the first through hole 114 To the outside of the lower mold (110).

A second through hole 122 is formed in the center of the lower end of the forming die 120. The second through hole 122 is formed at the center of the inner bottom of the forming mold 120 and penetrates from the inner bottom of the molding mold 120 to the outer side of the molding mold 120. That is, the second through hole 122 is formed as a hole that penetrates from the inside to the outside of the forming die 120, and the guide rod 150, which will be described later, can be inserted and inserted. This is because when the workpiece (moistened mugwort powder) stored in the mold 120 is pressed by the pressing portion 140 to be described below, the moisture of the workpiece is pressed by the pressure to the second through hole 122 To the first through hole (114).

An upper mold 130 is formed on the lower mold 110. The upper mold 130 is formed in a plate-like shape having a predetermined thickness on the lower mold 110. The upper mold 130 is provided to be vertically drivable so that the pressing portion 140, which will be described below, can press the workpiece inside the mold 120.

A pressing portion 140 is formed on the lower end surface of the upper mold 130. The pressing part 140 is formed on the lower end surface of the upper mold 130 and is inserted into the forming mold 120 to press the workpiece stored in the molding mold 120. The pressing unit 140 protrudes in a direction perpendicular to the lower end surface of the upper mold 130. When the upper mold 130 is driven to move the pressing unit 140 to the mold 120, So that it can be inserted inside. The pressing part 140 inserted into the molding die 120 presses the workpiece (moisture-absorbing wormwood powder) stored in the molding die 120 to compress the workpiece to produce mugwort for moxibustion .

The outer diameter of the pressing part 140 may be equal to or smaller than the inner diameter of the molding die 120 so that the pressing part 140 can be inserted into the molding die 120.

A pressing portion protrusion (not shown) may be formed at the lower end of the pressing portion 140 along the pressing portion 140. That is, the pressing portion protrusion (not shown) is formed to be inclined downward from the lower end of the pressing portion 140 to the outer side. This is because when the pressing unit 140 presses the upper end of the workpiece stored in the forming die 120, it forms an inclined surface along the upper end of the workpiece to be finally processed. The workpiece on which the inclined surface is formed has a chamfered shape, and has an effect of minimizing damage to the workpiece.

At the lower end of the pressing portion 140, a guide rod 150 is formed. The guide rod 150 is formed in a direction perpendicular to the center of the lower end of the pressing portion 140 and is passed through the first through hole 114 as the upper mold 130 is driven. That is, the guide rod 150 is vertically moved together with the pressing portion 140 to pass through the first through hole 114, and a through hole is formed at the center of the workpiece to be pressed into the forming die 120 .

This serves to smooth the combustion of the mugwort, which is processed by forming a through hole extending from the upper end to the lower end of the workpiece at the center of the mugwort for processing. That is, the through-hole formed at the center of the moxa for moxibustion by the guide rod 150 allows the outside air to flow into the center of the moxa for moxibustion so that it can be burned in the best state.

The outer diameter of the guide rod 150 is equal to or smaller than the outer diameter of the first through hole 114. This allows the guide rod 150 to pass through the first through hole 114 when the guide rod 150 is vertically driven.

In addition, the lower end of the guide rod 150 is formed in a conical shape whose inner diameter gradually decreases downward. This makes it possible to more easily penetrate the workpiece stored in the forming mold 120. [

The inner diameter of the first through hole 114 and the second through hole 122 are formed such that the inner diameter of the first through hole 114 is smaller than the inner diameter of the second through hole 122. That is, the first through-holes 114 and the second through-holes 122, which are formed to have the different inner diameters, are pressed by the pressing unit 140, In order to facilitate removal thereof.

After the completion of the compression of the workpiece in the forming die 120, the lower end of the forming die 120 is positioned at the upper side. Then, the workpiece removing rod 120 having the same outer diameter as the inner diameter of the second through- Is inserted into the forming die 120 from the lower end of the second through hole 122 so that the workpiece can be easily removed from the forming die 120. This is because, when the inner diameters of the first through holes 114 and the second through holes 122 are equal, the inner diameter of the first through holes 114 is only inserted into the through holes formed in the work, So that it is easy to remove the mugwort for moxibustion, which is a workpiece, by using the workpiece removing rod (not shown).

≪ Embodiment 2 >

The moxa manufacturing machine according to the second embodiment includes the lower mold 210, the seating groove 212, the first through hole 214, the forming mold 220, the second through hole 222, The upper mold 230, the pressing portion 240, and the guide rod 250 are the same, so that the description thereof is omitted.

As shown in FIG. 2, the moxa manufacturing machine according to the second embodiment includes an insertion groove 216 formed at a lower end of the upper mold and a pressing portion An elastic part 218 provided between the inner upper end surface of the insertion groove 216 and the upper end surface of the pressing part 240 and the lower end surface of the upper mold where the insertion groove 216 is formed A guide line 262 formed on the inner side of the support portion 260 and a guide protrusion 242 protruding from the outer surface of the pressing portion 240 are different from each other.

First, an insertion groove 216 is formed in the moxibustion manufacturing tool according to the second embodiment. The insertion groove 216 is formed at the lower end of the upper mold 230 and is recessed upward from the lower end of the upper mold 230 so that the pressing portion 240 can be inserted. This is because the pressing portion 240 forms a space to be slidable in the vertical direction inside the insertion groove 216 by the constitution described below.

An elastic portion 218 is formed between the inner upper surface of the insertion groove 216 and the upper surface of the pressing portion 240. The elastic part 218 is formed to be capable of exerting an elastic force between the inner upper end surface of the insertion groove 216 and the upper end surface of the pressing part 240. When the upper mold 230 is driven in the vertical direction So that the work inside the forming part 1 can be formed in the same shape.

A support portion 260 is formed on the lower end surface of the upper mold 230 where the insertion groove 216 is formed. The support portion 260 is formed on the lower end surface of the upper mold 230 having the insertion groove 216 and protrudes downward from the upper mold 230. That is, the support portion 260 is formed to protrude downward along the lower end of the insertion groove 216, supports the side surface of the pressing portion 240, and supports the pressing portion 240 in the vertical direction As shown in FIG.

A guide line 262 is formed on the inner surface of the support portion 260. The guide line 262 has at least two grooves recessed in the vertical direction on the inner surface of the support portion 260. That is, the guide line 262 is recessed by a predetermined length on the inner surface of the support part 260, and guides the movement of the pressing part 240 in the vertical direction. More specifically, the guide protrusion 242 to be described below is inserted into the guide line 262 to guide the vertical movement of the pressing portion 240.

At least two guide lines 262 are formed. This serves to maintain the balance of the pressing portion 240 when the guide protrusion 242 to be described below is inserted into the guide line 262 to slide.

A guide protrusion 242 is formed on the outer surface of the pressing portion 240. The guide protrusion 242 is formed on the outer surface of the pressing portion 240 and protrudes outward from the pressing portion 240. That is, the guide protrusion 242 formed on the outer surface of the pressing portion 240 is inserted into the guide line 262, and moves along the guide line 262 to guide the movement of the pressing portion 240, And limitations. That is, the guide protrusion 242 limits the movement of the pressing portion 240 by the length of the guide line 262. This serves to limit the detachment of the pressing portion 240 from the inside of the support portion 260.

The handle portions 124 and 224 of the first and second embodiments of the present invention may be formed in a plate-like shape continuously connected to the grip portions 124 and 224 adjacent to each other. have. The plurality of molds 120 and 220 are connected by the handles 124 and 224 so that the molds 120 and 220 can be detached from the lower molds 110 and 210 .

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

110, 210: Lower mold
112, 212: seat groove
114, 214: first through hole
120, 220: Molding frame
122, 222: the second through hole
124, 224:
130, 230: Upper mold
140, 240:
150, 250: guide rod
216: insertion groove
218:
242: guide projection
260: Support
262: Guidelines

Claims (5)

A lower mold of a plate-like shape having a predetermined thickness;
At least one seating groove formed downward from the upper end of the lower mold;
A molding die formed in a shape corresponding to the seating groove and inserted in the seating groove, and having a storage space formed therein;
A first through hole formed in the center of the lower end of the seating groove and penetrating from a lower end of the seating groove to a lower end of the lower mold;
A second through hole formed in the center of the lower end of the forming die, the second through hole being penetrated from an inner lower end of the forming die to an outer side of the forming die;
An upper mold formed in a plate-like shape having a predetermined thickness on the lower mold and driven in a vertical direction;
A pressing part formed on the lower end surface of the upper mold and inserted into the forming mold to press the work stored in the forming mold; And
A guide rod formed in a direction perpendicular to the center of the lower end of the pressing portion and penetrating through the first through hole according to driving of the upper mold;
And the mugwort manufacturing method comprising: The method according to claim 1,
At the upper end of the mold,
A knob portion protruding outward from the forming die is provided,
The handle portion
Wherein the lower portion of the handle is formed with a predetermined space between the lower end of the handle and the upper end of the lower mold so that the user can easily grasp the mugwort. The method according to claim 1,
At the lower end of the upper mold,
An insertion groove into which the pressurizing portion can be inserted is formed, the pressurizing portion is inserted,
Between the upper end surface of the insertion groove inner side and the upper end surface of the pressing portion,
Characterized in that an elastic portion for generating an elastic force is formed and the workpiece inside the molding portion is pressed under the same pressure. The method of claim 3,
On the lower end surface of the upper mold where the insertion groove is formed,
A support portion protruding toward the lower side of the upper mold is provided to guide the movement of the pressing portion,
On the inner surface of the support portion,
A guide line is provided on the inner side surface of the support part, at least two grooves recessed in the vertical direction are formed,
On the outer surface of the pressing portion,
And a guide protrusion protruding from an outer surface of the pressing portion and moving along the guide line. The method according to claim 1,
The inner diameter of the first through-hole and the second through-
And the inner diameter of the first through-hole is smaller than the inner diameter of the second through-hole.

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