KR20120103859A - Needleless injection device - Google Patents

Abstract

PURPOSE: A medicine injecting device without a needle is provided to inject the medicine into skin tissue without a needle and to re-inject by being automatically filled after the injection. CONSTITUTION: A medicine injecting device without a needle comprises a gas injecting unit(200), housing(100), a pressure unit(300), a medicinal fluid pouring part(400), and a nozzle unit(500). The pressure unit comprises a pressurizing cylinder(310) and a pressure piston(320). The pressure piston is movable back and forth inside the pressure piston, and one end of the pressure piston is connected to a pressure bundle. An inlet port is perforated at the side end of the medicinal fluid pouring part. The nozzle unit is installed at the side end of the pressure cylinder to spray the medicine inside the pressure cylinder.

Description

Needle-less liquid injection device {NEEDLELESS INJECTION DEVICE}

The present invention relates to a needleless drug injection device provided to enable injection of a drug solution into a human body without a needle using a gas pressure and at the same time to automatically fill the drug after injection.

In general, a syringe is used to inject a drug into a tissue such as a human body or an animal. The basic form of the syringe is provided with a needle on one side of the cylinder in which the piston reciprocates to inject the chemical liquid through the hole of the needle when compressing the drug filled in the cylinder, it is mainly used until now.

However, since this type of syringe is a structure that can not replace the needle and is used only once because of concerns, such as infection, this causes a problem such as not only causes waste of resources but also pollutes the environment.

Moreover, people who use syringes frequently, such as children who need to be vaccinated with growing seasons or long-term inpatients, have fears about needles, as well as risks of skin damage if they continue to be inoculated into one site. Because of this, there are inconveniences such as the need to inject alternately, and this form of use is a direct cause of reluctance to inject.

The present invention devised to solve the above problems, by injecting the chemical liquid into the fine particles by the gas pressure and the nozzle at high speed without the injection needle, it is possible to inject the chemical liquid into the skin tissue of the human body, and at the same time automatically after the chemical liquid injection It is an object of the present invention to provide a needleless medicine liquid injection device that is filled and re-injectable.

In order to achieve the above object, the present invention provides a gas cylinder 210 having a gas injection hole 201 formed at one end thereof and a space formed therein, and a through hole 221 formed at an inner center thereof, and reciprocating in the gas cylinder. The gas pin 220 which is movable and the other pin of the gas cylinder through the gas piston and the pin pin spring 231 is connected to the medium through the pin pin 230 formed to open and close the through hole while moving the gas piston And a gas injection part 200 including a rebound spring 240 elastically supporting the gas piston at the gas injection side. A pressurized space formed at the side of the gas cylinder and communicating with a space in the gas cylinder, and connected to the first gas passage 101 opened and closed by the gas piston position and the second gas passage 102 opened and closed by the mill pin position. A housing (100) including a pressurized bundle (120) capable of reciprocating by a gas pressure introduced during opening and closing of each gas passage in the pressurizing space; A pressing part 300 having a pressure cylinder 310 having one end connected to the pressure space, and a pressure piston 320 capable of reciprocating within the pressure cylinder and having one end connected to the pressure bunch; A chemical injection part 400 which is drilled at the side of the other end of the pressure cylinder and provided with a chemical injection into the injection hole; The nozzle unit 500 is installed at the other end of the pressure cylinder and is provided to inject the chemical liquid in the pressure cylinder. It is characterized in that the high-pressure injection of the chemical liquid injected with the pressurized piston during the advance.

Needle-free drug injection device, such as the present invention, the fear of the needle is resolved above all, the patient can be injected with a comfortable mind, such as children and long-term inpatients, and the injection device can be used repeatedly, disposable syringe There is an effect that does not cause waste of resources or environmental pollution.

Moreover, since the diffusion rate of the drug after the injection into the body is faster than the needle syringe, the drug appears quickly, and after injection of the injection, the medicine is automatically filled and re-injectable, which is convenient to use.

1 is an external view of a drug injection device according to an embodiment of the present invention.
Figure 2 is an internal configuration of the drug injection device according to an embodiment of the present invention, showing a state in which the drug solution is injected.
3 is an enlarged view of the chemical liquid injection unit and the nozzle unit of FIG. 2.
Figure 4 is an internal configuration of the chemical injection device according to an embodiment of the present invention, showing a state in which the chemical liquid is injected through the nozzle unit.
Figure 5 is an internal configuration of the chemical injection device according to an embodiment of the present invention, showing a state of the time when the injection of the chemical liquid is completed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, which show preferred embodiments of the present invention. It should be understood, however, that there is no intention to limit the invention to the particular form disclosed, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. A detailed description thereof will be omitted.

1 is an external view of a drug injection device according to an embodiment of the present invention, Figure 2 is an internal configuration of the drug injection device according to an embodiment of the present invention, showing a state in which the drug solution is injected, Figure 3 2 is an enlarged view of the chemical liquid injection unit and the nozzle unit of FIG. 2.

In addition, Figure 4 is an internal configuration of the chemical injection device according to an embodiment of the present invention, showing the state that the chemical is injected through the nozzle portion, Figure 5 is the inside of the chemical injection device according to an embodiment of the present invention As a block diagram, it shows the state at the time when injection of chemical liquid is completed.

As shown in Figure 1, the needle-free drug injection device according to the present invention, the housing 100, the upper and lower housing 100 is installed in parallel with the gas inlet 201 is formed on one side and the trigger 150 on the other side Is formed at the end of the gas injection unit 200, the pressure cylinder 310, the pressure cylinder 310 formed in a straight line with the housing 100, and the injection cylinder 310 to spray the chemical liquid It is formed between the nozzle unit 500 and the pressure cylinder 310 and the nozzle unit 500 is composed of a chemical liquid injection unit 400 for injecting the chemical liquid from the syringe.

The shape or shape of the chemical injection device shown in FIG. 1 is not limited, and may be variously changed, and also, the internal structure described below may be changed in advance in consideration of the assembly form or convenience, and the like. Reveal it.

As shown in FIG. 2, the gas injection unit 200 includes a gas injection hole 201 formed at one end and a gas cylinder 210 into which gas is introduced into an internal space. The gas flowing into the gas inlet 201 is carbon dioxide and is injected at high pressure by a high pressure generator.

In the gas cylinder 210, a gas piston 220 is installed to reciprocate, and a through hole 221 is drilled from one end of the gas piston 220 to the other end in the center of the gas piston 220. The piston 220 is elastically supported by the reaction spring 240 at the gas inlet 201 side.

The gas cylinder 210 is further provided with a mil pin 230 is installed in parallel with the gas piston 220 and connected through a mil pin spring 231, the mil pin 230 is a trigger installed in the housing (100) 150 can be contacted.

One side of the mil pin 230 has a sharp tip portion is formed, the tip portion is provided to selectively open and close the through hole 221 according to the position of the mil pin 230.

In the housing 100, a pressurized space 110 installed in parallel with the gas cylinder 210 is formed at the side of the gas cylinder 210, and the press bundle 120 reciprocates in the pressurized space 110. It is possible to install.

The first gas passage 101 and the second gas passage 102 are connected between the gas cylinder 210 and the pressurized space 110, and the first gas passage 101 moves the gas piston 220. While opening and closing according to the position, the second gas passage 102 is opened and closed according to the movement position of the mill pin 230.

In addition, a gas outlet 141 is formed at one side of the gas cylinder 210 to be opened and closed according to the position of the gas piston 220 or the mill pin 230, and the gas cylinder 210 is opened when the gas outlet 141 is opened. Gas introduced into the inside is discharged to the outside. As shown, the gas outlet 141 may be formed in the handle 140 formed at one side of the housing 100.

The pressing unit 300, the pressure cylinder 310 formed in parallel to one side of the pressure space 110, the pressure piston is capable of reciprocating in the pressure cylinder 310 and one end is connected to the pressure bundle 120 320 is made.

The pressure cylinder 310 may have a first cylinder 311 and a second cylinder 312 having different inner diameters in parallel with each other, and the pressure piston 320 corresponding to each of the cylinders 311 and 312 respectively. The first piston 321 and the second piston 322 of different sizes may be formed to reciprocate in the cavities.

The pressurized bundle 120 and the pressurized piston 320 are connected to each other so as to be separated from each other. For this purpose, a connecting pipe 121 is formed at one end of the pressurized bundle 120, and a connecting rod is formed on the pressurized piston 320. 323 is formed, the connection rod 323 may take a structure that is inserted into the connection pipe 121.

On the side of the pressurized cylinder 310, for example, a chemical liquid injection part 400 for injecting the chemical liquid from a syringe is formed.

As shown in FIG. 3, the chemical liquid injection part 400 includes a connection member 420 interconnecting the injection hole 410 and the pressure cylinder 310 to which a syringe is connected, and having a space formed therein.

The connecting member 420 is provided with an opening and closing pin 430 to selectively open and close the injection hole 410, the opening and closing pin 430 is elastically supported by the support spring 431 when the injection of the chemical liquid While opening 410, it is provided to close the injection hole 410 when not injected.

A thread 411 is formed on an inner surface of the injection hole 410, and a thread corresponding to the thread 411 is formed on an outer surface of the outlet of the syringe so that the syringe and the injection hole 410 may be screwed together. Of course, the thread 411 may be formed on the outer surface of the inlet 410, which may be changed in design in consideration of the size of the syringe or the function of the inlet 410.

At the end of the pressurized cylinder 310, a nozzle unit 500 for spraying the chemical liquid injected into the pressurized cylinder 310 is formed.

The nozzle unit 500 includes a nozzle tube 510 in the form of a tube whose outer diameter is smaller than the inner diameter of the pressure cylinder 310 in the end portion of the pressure cylinder 310 as shown in FIG. Holes 511 are drilled in the tube wall of 510.

An opening / closing member 520 is embedded in the nozzle tube 510, and the opening / closing member 520 selectively opens and closes the hole 511 to open the pressure cylinder 310 and the nozzle tube 510. Communicate or close the internal spaces.

More specifically, the opening and closing member 520 is inserted into the nozzle tube 510, the tube portion 521 of the tubular shape in contact with the inner surface of the hole 511, and inside the tube portion at one end of the tube portion 521. It is made of a closing portion 522 to close the space, the tube portion 521 and the closing portion 522 is preferably formed of a stretchable elastic material such as rubber or silicone.

The outer end of the nozzle tube 51 is formed with a jet port 530 for spraying the chemical liquid.

As shown in an enlarged perspective view of FIG. 3, a cylindrical spraying rod 531 is formed around the injection hole 530, and an unevenness 532 is formed around the injection hole 530 of the injection hole 531 so that the injection hole 530 is formed. ) May be in contact with the skin of the human body, the air formed between the injection hole 530 and the skin by the space formed in the concave-convex (532).

On the other hand, as shown in Figure 2 in one end of the pressurizing space 110 in the housing 100, the flow control port 130 is screwed 132 with the housing 100, the flow control device 130 is its rotation It can be moved back and forth in the pressure space 110 according to the direction can change the volume of the pressure space 110, which is to control the inflow of the chemical liquid injected from the chemical liquid injection unit 400.

The attraction force is mutually attracted between the flow control port 130 and the pressurized bunch 120, for this purpose, the flow control port 130 and the pressurized bunch 120 is made of a metal material, one of them is a magnet 131 is installed.

Hereinafter, the chemical liquid injection and injection process will be described by explaining the operation of the chemical liquid injection device of the above configuration, and the present invention will be further embodied.

In order to facilitate understanding, the terms 'forward' and 'reverse' are adopted, 'forward' means movement toward the injection hole 530, and 'reverse' means movement toward the gas injection hole 201.

As shown in FIG. 2, the initial state of the chemical injection device is a state in which the gas piston 220 is advanced by the reaction spring 240, and the mil fin 230 is advanced by the milpin spring 230. Since the 230 is advanced, the through hole 221 is opened.

In this state, when the gas pipe is connected to the gas inlet 201, high-pressure carbon dioxide gas is introduced into the gas cylinder 210, and a part of the pressurized space located at the rear of the pressurized bundle 120 through the first gas passage 101 ( At the same time, a part of the gas flows into the pressurized space 110 located in front of the pressurized bunch 120 through the second gas passage 102 via the through hole 221 of the gas piston 220.

At this time, because the attraction force by the magnet and the metal between the pressurized bundle 120 and the flow control port 130, the pressurized bundle 120 is reversed in the direction of the flow control port 130, and at the same time the pressure piston 320 together The chemical is injected through the chemical injection unit 400 while reversing.

That is, when the pressure piston 320 is reversed as shown in FIG. 3, since the pressure inside the pressure cylinder 310 is lowered, external air is injected into the pressure cylinder 310 through the chemical liquid and the injection hole 530 of the syringe connected to the injection hole 410. There is a force to flow into.

Accordingly, the opening and closing pin 430 moves downward to suck the chemical liquid in the syringe through the inlet 410, and conversely, the pipe part 521 of the opening and closing member 520 seals the hole 511 of the nozzle tube 510. Therefore, air does not flow through the nozzle unit 500.

In this case, as shown in FIG. 2, the flow regulating device 130 adjusts the volume of the pressurized space 110 according to its position, and the pressurized bundle 120 adjusts the moving distance according to the volume of the pressurized space 110. It will be appreciated that the amount of injection of the chemical liquid is adjusted according to the position of the flow regulator 130. That is, when the volume of the pressurization space 110 is relatively large, the moving distance of the pressurizing piston 320 is long, so that a large amount of chemical liquid is introduced, and when the moving distance of the pressing piston 320 is short, a small amount of chemical liquid is introduced. .

When the trigger 150 is pulled as shown in FIG. 4 while the chemical liquid is filled to the front of the pressure piston 320, the second gas passage 102 closes the through hole 221 while the mill pin 230 moves backward. In communication with the gas outlet 141, the gas located in the pressure space 110 in front of the pressure bunch 120 is discharged to the gas outlet 141 via the second gas passage 102.

However, since the first gas passage 101 is not yet closed, the high-pressure gas flows into the rear space of the pressurized bundle 120 through the first gas passage 101, and thus the pressurized bundle 120 has a high speed. To advance, and at the same time the pressure piston 320 is advanced to push the chemical liquid.

In this process, the opening and closing pin 430 of the chemical injection unit 400 closes the injection port 410 with the internal pressure, including the elastic force of the support spring 431, and enlarges the nozzle unit 500 of FIG. As referred to, the hole 511 is opened while the tube portion 521 of the opening and closing member 520 is crushed or compressed by the internal compression force, and the chemical liquid is ejected through the hole 511 to the outside through the injection hole 530. Can be sprayed.

The sprayed chemical is sprayed at a very high speed and in the form of fine particles through the nozzle to penetrate through the skin.

When the trigger 150 is pulled to the end as shown in FIG. 5, the gas piston 220 closes the first gas passage 101 and ends without further advancing the pressurized bundle 120, and thus, the first gas passage 101. The pressure exerted at) temporarily occurs while the gas piston 220 is reversing. That is, after the second gas passage 102 is first opened and the gas is discharged through the gas outlet 141, the gas of high pressure is pressurized by the pressure gas 102 at a time between the first gas passage 101 and the gas passage 101. It is moving forward.

Thereafter, when the pulled trigger 150 is released, the gas piston 220 and the mill pin 230 are advanced to the elastic force of the recoil spring 240 and the mill pin spring 231 to return to the state as shown in FIG. The wad 120 is reversed by the attraction force and the chemical liquid is injected again.

Through this action it will be appreciated that the present invention can be used continuously in the drug injection device without a separate operation.

Although the above description has been made in connection with the preferred embodiments mentioned above, it will be readily apparent to those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention. It is obvious that all such changes and modifications belong to the appended claims.

100: housing 101: gas inlet passage
110: pressurized space 120: pressurized bundle 121: connector
130: flow control port 131: magnet 132: screw connection
140: handle 141: gas outlet 150: trigger
200: gas inlet 201: gas inlet 210: gas cylinder
211: Hole 220: Gas piston 230: Milpin
231: Milfin spring 240: Recoil spring
300: pressurizing unit 310: pressurized cylinder 311: first cylinder
312: second cylinder 313: outdoor air 320: pressure piston
321: first piston 322: second piston 323: connecting rod
400: chemical injection portion 410: inlet 420: connector
421: syringe holding rod 430: opening and closing pin 431: support spring
500: nozzle 510: nozzle tube 511: hole
520: opening and closing member 521: pipe portion 522: closed portion
530: nozzle 531: jet 532: irregularities

Claims (14)

A gas cylinder 210 having a gas injection hole 201 formed at one end thereof and a space formed therein; a gas piston 220 having a through hole 221 formed at an inner center thereof and capable of reciprocating within the gas cylinder; And a mil pin 230 connected to the gas piston and the milpin spring 231 at the other end of the gas cylinder to move the gas piston and to open and close the through hole, and the gas piston at the gas inlet side. A gas injection unit 200 including a rebound spring 240 to elastically support it;
A pressurized space formed at the side of the gas cylinder and communicating with a space in the gas cylinder, and connected to the first gas passage 101 opened and closed by the gas piston position and the second gas passage 102 opened and closed by the mill pin position. A housing (100) including a pressurized bundle (120) capable of reciprocating by a gas pressure introduced during opening and closing of each gas passage in the pressurizing space;
A pressing part 300 having a pressure cylinder 310 having one end connected to the pressure space, and a pressure piston 320 capable of reciprocating within the pressure cylinder and having one end connected to the pressure bunch;
A chemical injection part 400 which is drilled at the side of the other end of the pressure cylinder and provided with a chemical injection into the injection hole;
And a nozzle unit (500) installed at the other end of the pressure cylinder and provided to spray the chemical liquid in the pressure cylinder.
The method of claim 1,
The chemical liquid, characterized in that the screw coupling 132 at one end of the housing 100 is provided with a flow adjusting device 130 that can be moved back and forth within the housing according to the rotation direction to adjust the amount of the chemical solution introduced into the inlet Injection device.
The method of claim 2,
The flow control device 130 and the pressure bundle 120 are each made of metal so that the attraction force acts between the flow regulator 130 and the pressure bundle 120, the magnet 131 is installed on any one of them. Pharmaceutical liquid injection device.
The method of claim 1,
Chemical gas injection device characterized in that at least one gas outlet (141) for discharging the gas introduced by opening and closing in accordance with the gas piston or the pin location on one side of the gas cylinder (210).
The method of claim 4, wherein
The gas outlet 141 is a chemical injection device, characterized in that formed in the handle 140 formed on one side of the housing.
The method of claim 1,
One end of the mill pin 230 is in contact with the trigger 150 installed in the housing 100 and the other end is a pointed tip is formed to open and close the through hole 221 of the gas piston A chemical liquid injection device.
The method of claim 1,
A connecting pipe 121 is formed at one end of the pressing bundle 120, and a connecting rod 323 extending from the pressing piston 320 is inserted into the connecting tube 121 so that the pressing bundle and the pressing piston are formed. A chemical injection device, characterized in that connected to each other separably.
The method of claim 1,
The pressure cylinder 310 is composed of a first cylinder 311 and a second cylinder 312 having different internal diameters, the pressure piston 320 is a reciprocating movement in each of the cylinders (311, 312) Drug injection device, characterized in that consisting of one piston (321) and the second piston (322).
The method of claim 1,
The chemical liquid injection part 400, the connection member 420 is connected to the injection port 410 and the pressure cylinder 310, the space is formed therein,
Is installed in the connecting member 420, the chemical injection device characterized in that it comprises an opening and closing pin 430 elastically supported by a support spring (431) to open and close the injection port 410 to open when injecting the chemical.
The method of claim 9,
A screw thread (411) is formed on the inner surface or the outer surface of the injection hole (411), the drug injection device, characterized in that the syringe can be screwed.
The method of claim 1,
The nozzle unit 500 may include a nozzle tube 510 having an outer diameter smaller than an inner diameter of the pressure cylinder 310 in the end portion of the pressure cylinder 310, and having a hole 511 formed on the wall of the pressure cylinder 310; It characterized in that it comprises an opening and closing member 520 for opening and closing the hole 511 to communicate or close the inside of the pressure cylinder and the nozzle tube, and the injection port 530 formed on the outer end of the nozzle tube. Drug injection device.
12. The method of claim 11,
The opening / closing member 520 is inserted into the nozzle tube 510 to close the tube part 521 having a tubular shape in contact with the inner surface of the hole 511 and to close the inner space of the tube part at one end of the tube part 521. Is made of a closed portion 522, the pipe portion and the closed portion is a chemical injection device, characterized in that molded in a stretchable elastic material.
13. The method of claim 12,
The elastic material is a chemical liquid injection device, characterized in that the rubber or silicone.
12. The method of claim 11,
A cylindrical spraying table (531) is formed around the ejection opening (530), and the chemical liquid injection device, characterized in that the concave-convex (532) is formed around the ejection opening (530) of the spraying table (531).

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