KR20160061623A

KR20160061623A - stinger to inject drug

Info

Publication number: KR20160061623A
Application number: KR1020140164155A
Authority: KR
Inventors: 홍태근
Original assignee: 홍태근
Priority date: 2014-11-24
Filing date: 2014-11-24
Publication date: 2016-06-01

Abstract

The present invention relates to a herbal medicine used in a Korean medicine clinic, which allows acupuncture injections to be performed at the same time as acupuncture treatment, even though acupuncture is used in Korean medical practice. In particular, the use of acupuncture according to the medical practice of Han, but in the past, as in the traditional medicine, the acupuncture process is not needed, (Korean herbal medicine) which is not a medicinal medicine which can easily infiltrate herbal medicine liquid (HanYang Liquid) along the flow direction of menstrual blood.

Description

Stinger to inject drug used in oriental medicine

The present invention provides a method of forming a communication hole through which a chemical liquid can flow into an inner side of a needle tube, and a chemical solution introduced into the communication hole can supply a large amount of chemical solution in a short time through a chemical solution injection hole formed on the upper side of the end penetration tip This is about a one-handed needle used in an oriental clinic that forms a porous or helical injection hole.

In other words, as shown in Figs. 1 and 2, the device can be used as a normal needle during normal use, while at the time of injecting medicinal solution, a thin hose 7 is inserted into a needle 1 inserted into a human body, The chemical solution is injected into the chemical solution injection hole 2 formed in the needle 1 by the chemical solution injector 8 after connecting with the hose connection part 4 of the earth 6 fitted to the distal end 1a of the needle 1, (3) formed at the distal end of the medical device (1), the drug solution penetrates and diffuses into an accurate menstrual region, and a rapid therapeutic effect can be obtained.

The problem with this design is that the needle (1) must be precisely inserted into the acupuncture point during the procedure (1), so it needs to be highly concentrated and also to avoid interference with the surrounding area. The needle (1) 4) and needle (1) in the process of sticking to the acupuncture may be spoiled. It is highly likely that a procedure that requires saliva in a precise position is likely to induce a greater risk by inserting it into an inaccurate acupuncture point. This is because the operator's finger movements, which must be performed by acupuncturing even when the horn 4, which is bent and bent smoothly, is connected to the needle 1, is limited to a great extent.

The present invention provides a one-handed acupuncture needle which is used in a oriental medicine clinic so that acupuncture injections can be performed simultaneously with the acupuncture treatment even though acupuncture is used in one direction. In particular, the use of acupuncture according to the oriental medicine is used, but as in the conventional acupuncture treatment (forced acupuncture), there is no need of the procedure of putting in and out of the acupuncture, To be used in one oriental medicine clinic, which is not a two-faced oriental medicine so as to easily infiltrate the drug solution along the flowing direction of the flow of the medicine.

In addition, the present invention forms a communication hole through which the chemical liquid can flow into the inner side of the needle tube, and the one chemical solution introduced into the communication hole can supply a large amount of the chemical solution in a short time through the chemical solution injection hole formed on the upper side of the end penetration tip To provide a one-sided needle used in a oriental clinic that has a porous or spiral infusion ball.

The one-sided needle used in the oriental medicine clinic according to the present invention comprises: a needle tube (10) having a communicating hole (11) for injecting a chemical solution therein and having a penetration tip (12) closed at its tip; A chemical solution supply unit 20 for supplying a chemical solution by using a syringe A or a separate chemical solution storage box B at a rear end portion of the cap tube 10; And a chemical liquid injecting hole 30 formed to communicate from the side of the upper cap tube 10 of the penetration tip 12 to the communication hole 11 on the inner side, So that the chemical solution can be injected in the direction of the arrow.

The chemical solution injecting holes 30 are formed on the side surface of the sinking pipe 10 in such a manner that the chemical solution injecting holes 30 are formed on the side surface of the sinking pipe 10 at a predetermined angle So that the level of the chemical liquid injecting holes 30 arranged at an angle of 180 degrees with each other can be made to correspond to each other or the four liquid liquid injecting holes 30 can be formed at different levels, The chemical solution injection hole 30 is formed in the side wall of the capillary tube 10, Thereby forming a helical injection hole 31 formed in the form of a spiral.

The chemical liquid supply unit 20 formed at the rear end of the capillary 10 according to the one-sided needle used in the present invention includes a syringe chemical liquid supply unit 18 The chemical liquid supply unit 20 formed at the rear end portion of the cap tube 10 is enlarged in diameter so as to fit in a separate chemical liquid container B, Forming a connecting portion (42) having a closed cylindrical body (41); The outer circumferential surface of the connecting portion 42 is formed with a circumferential outer circumferential surface so as to form a long hole 43A or a helix inlet hole 43 communicating with the inner communication hole 11 to receive the chemical solution, The chemical liquid container B connected to the connection portion 42 includes a cylindrical case body 51 having one side opened to enclose the outer circumferential surface of the connection portion 42; A sliding tube 52 partitioned by the same diameter so that the connecting portion 42 is inserted into the inside of the case body 51 and can be engaged with the sliding body; A shielding film (53) formed on the upper part of the sliding tube (52) so as to block the outflow of the chemical solution stored inside the body (51); A supply hole 54 (not shown) in which a part of the sliding tube 52 is opened to supply the chemical solution 1 to the elongated hole 43A or the spiral inlet hole 43 of the connecting portion 42 fitted into the sliding tube 52 ); And an inflow hole 56 in which the end of the sliding tube 52 is opened so that the chemical solution 1 of the sliding tube 52 can be introduced into the chemical solution inflow space 55 outside the sliding tube 52 When the blocking film 53 is pressed through the end of the connection portion 42, the chemical solution 1 is introduced into the inflow hole 56, the supply hole 54, the spiral inflow hole 43, the communication hole 11, So that it can penetrate into the inside of the menstrual blood sequentially through the holes (30).

The length L of the connecting portion 42 is formed to correspond to the length of the sliding pipe 52 and the length of the inflow hole 56, So that the medicinal liquid 1 on the inner side can be injected into the menstrual blood; The outer peripheral surface of the connection portion 42 is received in the receiving portion K of the chemical liquid container B when the connection portion 42 is inserted into the chemical liquid container B.

According to the present invention, in the case of a conventional one-hand acupuncture needle (forced acupuncture), unlike the dry acupuncture needle, it is possible to perform only the hand acupuncture therapy which is simply invasive and turned to the left or to the right or to the left or right. However, And the herbal medicine needed for the meridians can be easily and quickly absorbed.

Also, unlike the conventional technique, which requires separate injection of acupuncture and pharmacological agent separately from acupuncture and shouting, this technique allows easy dispensing of herbal medicines as needed without removing the acupuncture after acupuncture There is a big advantage in.

In addition, the present invention forms a plurality of chemical solution injection holes on the side of the sinker and forms the chemical solution injecting holes at different levels, so that a large amount of the chemical solution can be injected in a short time.

Further, the present invention has a great advantage in that it has a helical injection hole formed on the outer circumferential surface of the needle tube so that a larger amount of chemical solution can be easily ejected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an embodiment of a conventional medicinal herb,
FIG. 2 is an enlarged cross-sectional view of a chemical solution inlet of a conventional medicinal preparation,

The present invention relates to a medicinal herb. Especially, it is about Korean herbal medicine which can clearly infiltrate deeply into the skin of medicine used in both sides. Therefore, the structure of the present invention and its operation will be described in detail.

(10) having a penetration tip (12) closed at its tip and a communication hole (11) for injecting a chemical solution is formed inside the syringe (A) or a separate chemical reservoir And a chemical solution injection hole 30 formed to communicate from the side surface of the upper cap tube 10 of the penetration tip 12 to the inner communication hole 11, And is capable of injecting a drug solution in the direction of the flow of menstrual blood while at the same time acupuncturing the menstrual discharge.

The characteristic feature of the construction of the present invention is that the penetration tip 12, which is a tip portion, is closed and has a sharp-pointed shape, and has a communicating hole 11 communicating with its center inward as shown in Fig. The saliva of the present invention is a medical care acupuncture needle which softly induces the flow of menstrual blood through a thin acupuncture point 10 and an acupuncture tip 12 at its end. Only one chemical solution 1 is injected into the communicating hole 11 so that the chemical solution injecting hole 30 formed in the side of the upper side sink tube 10 in the penetration tip 12, Is a needle which flows out of the drug solution (1) and injects the drug solution (1) in the same direction as the flow of the menstrual blood. According to the traditional oriental medicine theory of meridians, the meridian is running in our body, and the moving parts are going from top to bottom, from bottom to top, or from side to side. Due to the recent development of oriental medicine, besides taking medicinal medicine through the mouth, a method of transferring the medicinal form through the skin is also used. In fact, a typical medical device for drug delivery that penetrates deep into the skin is a prescription syringe.

The present invention is characterized in that one needle of the needle different from that of both syringes is injected in the form of a needle tube 10 having a communicating hole 11 to inject a drug solution So that the drug is delivered along the meridian. This is intended to facilitate the delivery of the drug solution (1) to the subcutaneous subcutaneous fibers and to see the effect of the drug solution (1).

The penetration tube 10 of the present invention has a hollow communicating hole 11 and the penetration tip 12 at the tip end has a wedge shape so as to serve as one needle and also serve as a penetration tube for injecting the drug solution 1. [ I was able to do it at the same time. This is a breakthrough in the development of herbal acupuncture that does not require a stent to needle such as a separate needle. In addition, since the medicinal solution (1) is injected in the progress direction of the meridian, the medicinal solution (1) is injected in the direction of the menstrual discharge or meridian, It is outstanding.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other 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. As described above, according to the present invention, the chemical liquid supply unit 20 is provided at the uppermost stage, and the chemical liquid 1 is supplied to the chemical liquid supply unit 20 by a separate means and passes through the inner communication hole 11 of the cap tube 10 And is sprayed to the chemical liquid supply hole 20 at the tip portion to deliver the chemical liquid 1 deep into the skin. Although the present invention is actually one-sided acupuncture, the drug solution 1 may be injected using a syringe used in both directions, or may be distinguished from the other by using a separate chemical solution reservoir B. The method of use may be used in any manner, but the preferred embodiment of the present invention is a method provided with a separate chemical liquid container B to be described later. However, in the present invention, it is also possible to use both syringes as shown in Figs. 3A and 3B.

It is preferable that the chemical solution injection hole 30 of the present invention is formed with a plurality of holes as shown in Figs. 3 (a) and 3 (b) and Fig. A plurality of chemical solution injection holes 30 are formed on the side surface of the cap tube 10 so that a large amount of the chemical solution 1 can be infiltrated at a faster time. In the case of all syringes, there is only one communication hole at the end of the tip, so the penetration of the drug is controlled by the pressing force of the syringe. The needles of the present invention can inject a single medicament 1 more conveniently by using a plurality of medicament injection holes 30 without such troubles.

The embodiment is shown in Figs. 3 (a) and 3 (b) and Fig. 4 in various embodiments. That is, the chemical liquid injecting holes 30 of the present invention are arranged at a predetermined angle on the side surface of the cap tube 10, and the chemical liquid injecting holes 30 are arranged at an angle of 180 degrees, Or the four liquid injection holes 30 can be formed at different levels.

3 (a) of the present invention, four chemical solution injection holes 30 are formed at an angle of 90 [deg.] To the side surface of the capillary tube 10 to form four chemical solution injection holes. do. As a matter of course, a larger number of chemical solution injection holes 30 may be formed, and a smaller number of chemical solution injection holes 30 may be formed. Only two chemical solution injection holes are made facing each other. And the chemical solution injection holes 30 arranged at an angle of 180 degrees are made to have the same level as the chemical solution injection holes 30, the two chemical solution injection holes 30 are formed at a position closer to the tip portion of the injection tip, . If the four chemical liquid injection holes 30 are formed at the same level in the thin cap tube 10, there is a possibility that the tip portion is cut while being pressed, and a manufacturing process is difficult to punch the chemical liquid injection hole 30 itself . Therefore, the chemical liquid injection holes 30 spaced 180 ° apart from each other are formed at the same level. Of course, this is only an example of the chemical solution injector 30 of the present invention.

As shown in FIG. 3 (b) and FIG. 4, the four chemical solution injection holes 30 can be formed at different levels. But they are formed at different levels to each other to increase the amount of the chemical liquid 1 ejected, but improve the durability of the pouring tube 10 as well as the ease of manufacture.

The present invention having such a structure makes it possible to flow the single medicament liquid 1 in a form that is more progressive in the direction of the flow of menstrual discharge or meridian. The portion where the chemical liquid injecting hole 30, which is the portion where the chemical liquid 1 is injected and flows out, is spread to have a gap of a certain level length in a wider portion. The effect of Han's drug (1) can be seen more quickly.

For the same purpose, the present invention proposes a more special and preferred embodiment. 3 (c) and FIG. 5, the chemical solution injection hole 30 has a helical injection hole 31 formed in the form of a continuous or short-circuited spiral on the side surface of the capillary tube 10 .

When the drug solution injection hole 30 is spirally wound around the outer circumferential surface of the needle tube 10 as shown in the drawing, it has a spiral injection hole 31 that is somewhat wider than the circular hole described above. A large amount of the chemical solution 1 can be flowed out, and the chemical solution 1 has a wide range because the chemical solution 1 is long and formed at a constant interval. The durability is improved and it is easy to form on the side surface of the capillary tube 10, which is the most preferable embodiment of the chemical liquid injecting hole 30 in the present invention. Also, although not shown, the spiral injection hole 31 may be partially formed in a short-circuited form. The short-circuited, continuous spiral fluid injecting hole 30 can improve the durability of the capillary tube 10 substantially, and is advantageous because the discharge amount of the medicament 1 does not drop significantly compared to the continuous spiral injecting hole 31 have. All of them can be utilized in the present invention.

In fact, the usual syringe used in both sides is that the tip of the needle, which is the tip of the needle of the syringe, is drilled or cut into an oblique line, so that it penetrates the skin layer and tears and damages the skin and the fiber layer. There may be a separate recovery period for tearing or penetrating the skin for drug infusion and injecting the drug into the torn subcutaneous layer.

On the other hand, the tip of one needle is formed into a pore shape at the tip of the injection tip, and the distal end is blocked, so that it does not tear or damage muscle fibers, blood vessels, nerves, and the like due to sharp cutting surfaces such as both syringes. The herbal medicine of the present invention is able to treat without inviting recovery period by infiltrating the skin in the direction of acupuncture point for seizing the acupoint, crossing the muscle fiber, and injecting the chemical solution up and down over the running part of the desired meridians.

In the meantime, the present invention may inject the chemical solution 1 into the needle tube 10 using a syringe used in both sides as mentioned to some extent. It solves the problem that both syringes bring while using both syringes. 3 (a) and 3 (b), the chemical liquid supply unit 20 formed at the rear end portion of the needle tube 10 includes a syringe A having an outer peripheral surface widened to surround the needle connection portion 19, And an integral or separate supply elbow 18-1 with a chemical supply 18. The chemical solution is supplied from the back of the needle tube, and the syringe used in both sides can be adopted as it is. The method is to structurally shape the shape of the medicament supply part 20 to fit the syringe needle connection part 19. The rear end portion of the needle tube 10 is widened to some extent so as to be shaped like a needle of a syringe. It is advantageous to use a simple medicine preparation portion in such a manner that the syringe chemical solution supply portion 18 is simply inserted into the tip needle connection portion 19 of the syringe A. It is possible to connect using a separate hose, but it requires a lot of chemical solution (1) to be discarded.

It is also advantageous to connect the distal end needle connection portion 19 of the syringe A and the end drug solution supply portion 18 of the needle tube 10 using a separate supply elbow 18-1 as shown in Figure 3 (b) Method.

As described above, the medicine dispenser of the present invention may utilize the syringe A used in both of them, but it is more preferable to use the chemical dispenser B which takes the form of a saliva. That is, the chemical liquid supply unit 20 at the end of the capillary 10 of the present invention is implemented as shown in FIG. 3 (c) for the chemical liquid container B to be described later. That is, the chemical liquid supply unit 20 formed at the rear end portion of the cap tube 10 is enlarged in diameter so as to fit in a separate chemical liquid container B to form a connection portion 42 having a cylindrical body 41 whose end is closed The outer circumferential surface of the connecting portion 42 is formed with a circumferential surface so as to surround the inner circumferential communication hole 11 to form a long hole 43A or a spiral inlet hole 43 through which the chemical solution flows .

So that it is easy to fit into a chemical liquid container B to be described later and its end is closed to block the inflow of the chemical liquid 1. [ Instead, a spiral hole is formed on the outer surface of the cylindrical body in the present invention in the form of a long hole 43A or a spiral formed on the side surface of the cap tube 10. The spiral hole is referred to as a spiral inlet hole 43 in the present invention. The spiral hole 43 is formed long on the outer circumferential surface of the connecting portion 42 which is a cylindrical body 41 to facilitate the injection of the chemical solution 1 later. It is more preferable that the present invention in which a greater amount of the chemical liquid 1 can be introduced by using the pressing force is used in a state that the chemical liquid container B is sandwiched between the connecting portions 42 of the cap tube 10. It is important that the elongated holes 43A and the spiral inlet holes 43 are all formed to be elongated so as to communicate from the left end to the right end of the connecting portion 42. [

Hereinafter, a more specific embodiment of the chemical reservoir (B) of the present invention will be described in detail with reference to FIG. The chemical liquid container B connected to the connection part 42 according to the present invention has a cylindrical case body 51 whose one side is opened so as to surround the outer circumferential surface of the connection part 42, And a sliding tube 52 partitioned to have the same diameter so that the connection portion 42 is inserted into the inside of the sliding tube 52 so as to be slidably engaged with the sliding tube 52. In order to block the outflow of the chemical solution accommodated inside the body 51, There is a blocking film 53 formed as a film. A supply hole (not shown) in which a part of the sliding tube 52 is opened to supply the chemical solution 1 to the elongated hole 43A or the spiral inlet hole 43 of the connecting portion 42 inserted into the sliding tube 52 And an inflow hole 56 in which the end of the sliding tube 52 is opened so that the chemical solution 1 of the sliding tube 52 can be introduced into the chemical solution inflow space 55 outside the sliding tube 52, . When the blocking film 53 is pressed through the end of the connecting portion 42, the chemical liquid 1 is sucked through the inlet hole 56, the supply hole 54, the spiral inlet hole 43, the communication hole 11, (30) in order to penetrate into the inside of the menstrual blood.

That is, the chemical liquid container B proposed in the present invention is intended to permeate the medicinal liquid 1 on the inner side more easily into the skin by the method of pressing the medicinal liquid container B in a state where it is always inserted in the connection portion 42 formed behind the medicinal liquid . The outer shape of the chemical liquid container B may be circular or rectangular, but the sliding tube 52 formed on the inner side has the same circular cross-section as the corresponding connection portion 42. In other words, since the connecting portion 42 of the present invention, which will be vertically coupled with the inner circumferential surface of the sliding tube 52, has a circular cross section, the sliding tube 52, which serves as a guide line, do. The body of the medicinal liquid container B of the present invention is such that the slider tube 52 is formed on the inner side as in the structure of the double pipe and the body 51 surrounds the outer side. A space portion having a small width is formed between the inner peripheral surface of the body 51 and the slider tube 52. In the present invention, this is referred to as a chemical liquid inflow space 55. [ 6, a hole is formed at the right end of the slider tube 52 to form an inlet hole 56, and a separate supply hole 54 is formed to open a part of the slider tube 52 . Then, a blocking film 53 shown inside the slider tube 52 is formed.

When the blocking film 53 forms a film and blocks the supply hole 54, the drug solution 1 filled in the chemical solution container B does not flow out to the outside. However, when the shielding membrane 53 is pressed and torn by the connecting portion 42, the connecting portion enters the inside of the slider tube 52. And pressurizes the chemical solution 1 to the outside and discharges the chemical solution 1 to the outside of the needle tube 10. This manner of operation will be described in more detail with reference to FIGS. 6 and 7.

The medicine dispenser B and the chemical medicine dispenser B of the present invention which can be completely separated into the state as shown in FIG. 6 (a) are used in the form as shown in FIG. 6 (b). When the connection part 42 at the end of the cap tube 10 is in close contact with the blocking film 53 in a state in which the chemical liquid container B is partially inserted, The shielding film 53 is positioned in a state of being offset toward the left side portion of the chemical container B as shown in Fig. 6 (b), in order to block the supply hole 54 on the right side thereof. When the supply hole 54 is blocked, the chemical solution 1 does not flow out to the outside. In this state, when the practitioner inserts the medicinal solution into the patient and judges that the injection of the medicament solution 1 is necessary, the medicinal solution reservoir B is lightly pressed so that the end connecting portion 42 of the penetration tube 10 tears the shielding membrane 53, And deeply enter the inside of the storage container B. When the connection portion 42 presses the blocking film 53 and the blocking film 53 is torn, the connection portion 42 moves to the right side and the chemical solution 1 present in the chemical solution inflow space 55 is guided to the sliding pipe 52 As shown in Fig. The chemical solution 1 rides on the outer chemical liquid inflow space 55 of the sliding tube 52 through the inflow hole 56 as shown in FIG. To the inside of the sliding tube 52. At this time, since the connecting portion 42 tears the shielding film 53 and presses the shielding film 53 and moves to the right side room, the long hole 43A or the spiral inlet hole 43 formed on the outer circumferential surface thereof is substantially opened.

The chemical solution 1 flowing through the long hole 43A or the spiral inflow hole 43 flows through the communicating hole 11 and flows into the spiral hole 43A The drug solution 1 is delivered to the penetration tip 12 of the first stage of the drug solution injection port 10 and the drug solution 1 is poured into the drug solution injection hole 30 to penetrate into the skin. Since the elongated holes 43A and the spiral inlet holes 43 are elongated from the left side to the right side by rotating the outer peripheral surface of the elongated holes 43A and the spiral inlet holes 43, So that the chemical solution (1) can be delivered to the communication hole (11).

The medicament of the present invention which is used in this manner can supply a larger amount of the medicament 1 in a small amount of time by using the spiral orifice 31 having a large number or spiral shape, 1) can be injected. In addition, since the amount of the chemical liquid 1 injected can be controlled through the pressure that the connection portion 42 is pressed by the sliding tube 52, the chemical liquid infiltration effect is superior to all the conventional injectable medicine.

The length L of the connecting portion 42 of the chemical liquid container B of the present invention corresponds to the length of the sliding pipe 52 and the length of the inflow hole 56 to make the chemical liquid 1 inside the sliding pipe 52 So that the outer circumferential surface of the connecting portion 42 is all received in the receiving portion K of the chemical liquid container B when the connecting portion 42 is inserted into the chemical liquid container B.

As shown in Figs. 6 to 8, the connecting portion 42 is formed in a corresponding length, which is equal to or similar to the length of the sliding tube 52 and the inflow hole 56, thereby enabling accurate insertion of the chemical solution 1. It is preferable that the outer peripheral surface of the receiving portion K is maintained in a state in which the connection portion 42 is pulled out to the left so as to maintain the state in which the outer peripheral surface thereof is blocked. When the supply hole 54 is opened while being pushed inward, So that the ball 43 can accurately flow the chemical solution 1. The housing portion K shown in FIG. 1 is configured such that once the connection portion 42 at the end of the cap tube 10 is inserted into the chemical liquid container B, a predetermined position can be secured and at the same time, Blocks flow.

8 and 9, a portion where the connection portion 42 breaks the blocking film 53 and the chemical solution 1 flows into the connection portion 42 will be described in more detail. First, when the chemical liquid container B is pressed, the end connecting portion 42 of the cap tube 10 destroys the blocking film 53. At this time, there is a hole through which the chemical solution 1 can flow in the portion of the connection portion 42 which is in close contact with the shielding film 53. The hole is formed with the spiral inlet hole 43 / the long hole 43A and the communication hole 11, So that the chemical liquid 1 immediately flows into the communication hole 11.

The chemical solution 1 is discharged through the spiral inflow hole 43 and the long hole 43A to the outside of the communication hole 11A through the hole 43A, The chemical liquid 1 is initially supplied to the communication hole 11 through B and then supplied to the communication hole 11 through A and C after the initial stage.

One; Chemical solution 10; Bowing
11; A communication hole 12; Two-way
20; A chemical liquid supply unit 30; Chemical solution injection hole
41; A body 42; Connection
43; Spiral inflow hole 51; body
52; Sliding tube 53; Sliding stopper
54; Supply hole 55; Chemical solution inflow space
56; Inflow ball

Claims

A capillary tube 10 having a communication hole 11 for injecting a chemical solution therein and having a penetration tip 12 whose tip is closed;
A chemical solution supply unit 20 for supplying a chemical solution by using a syringe A or a separate chemical solution storage box B at a rear end portion of the cap tube 10; And
And a chemical liquid injecting hole (30) formed to communicate from the side of the upper cap tube (10) of the penetration tip (12) to an inner communication hole (11)
The chemical liquid supply unit 20 formed at the rear end portion of the cap tube 10 is enlarged in diameter to fit in a separate chemical liquid container B to form a connection portion 42 having a cylindrical body 41 whose tip is closed;
The outer circumferential surface of the connecting portion 42 is formed with a circumferential outer circumferential surface so as to form a long hole 43A or a spiral inlet hole 43 communicating with the communicating hole 11 in the inner side to receive the chemical solution,
The chemical liquid container B connected to the connection portion 42 is,
A cylindrical case body 51 having one side opened to surround the outer circumferential surface of the connecting portion 42;
A sliding tube 52 partitioned by the same diameter so that the connecting portion 42 is inserted into the inside of the case body 51 and can be engaged with the sliding body;
A shielding film (53) formed on the upper part of the sliding tube (52) so as to block the outflow of the chemical solution stored inside the body (51);
A supply hole 54 (not shown) in which a part of the sliding tube 52 is opened to supply the chemical solution 1 to the elongated hole 43A or the spiral inlet hole 43 of the connecting portion 42 fitted into the sliding tube 52 ); And
And an inflow hole 56 in which the end of the sliding tube 52 is opened so that the chemical solution 1 of the sliding tube 52 can be introduced into the chemical solution inflow space 55 outside the sliding tube 52 When the blocking film 53 is pushed through the end of the connecting portion 42, the chemical liquid 1 flows into the inflow hole 56, the supply hole 54, the spiral inflow hole 43, the communication hole 11, (30) in order to penetrate the inside of the menstrual blood sequentially.

The method according to claim 1,
Characterized in that a plurality of chemical solution injection holes (30) are formed on the side surface of the cap tube (10).

3. The method of claim 2,
The chemical liquid injecting holes 30 are arranged in a plurality of intervals at predetermined angles on the side surface of the capillary tube 10 so as to form the chemical fluid injecting holes 30 arranged at the same angle with each other at the same angle, And the liquid injection holes (30) can be formed at different levels.

The method according to claim 1,
The chemical solution injection hole 30 is formed in the side wall of the capillary tube 10, Characterized in that a helical injection hole (31) formed in the form of a spiral is formed.