FR2958167A1 - Drug infusing device, has scanner mounted on scanner support stand, displacement controlling element including anti-impact member, and screw part whose side is screwed in penetration hole formed in supporting board - Google Patents

Abstract

The device has a movement transmitting element installed in a scanner support stand for transferring pressure to a rear end of a scanner. A displacement controlling element is installed in a case for controlling displacement. A friction plate is combined in the displacement controlling element. An insertion hole is formed in a center part of a drug pouring cylinder. The scanner is mounted on the scanner support stand. The displacement controlling element includes an anti-impact member. A side of a screw part is screwed in a penetration hole formed in a supporting board.

Description

B11-1318EN 1 Injection device The present invention relates to an injection device.

More particularly, the present invention relates to an injection device in the form of a bar, able to prevent a patient from experiencing a strong inconvenience or fear caused by an injection device resembling a pistol, limiting as much as possible the passing of a needle outside.

Mesotherapy is a method of treatment to inject a drug into a dermal layer of skin using a thin needle or to apply a cutaneous stimulus by injection, and was developed in 1952 by the doctor French Michel Pistor. Mesotherapy has been used extensively for aesthetic treatments such as the elimination of fat deposits, the reduction of dermalgia, hair renewal, weight loss, rhytidectomy, the treatment of acne and the treatment of acne. injury treatment. Since a recent date, while the public attention is attracting more and more attention to the aesthetic care, the cases of use of mesotherapy multiply in many countries. An injection device used in mesotherapy is a device for rapidly injecting a drug into the skin with the aid of electricity or pneumatic compression; this is the mesotherapy gun.

Mesotherapy guns work with electricity or pneumatic compression, and each mesotherapy gun has a high cost. To operate the mesotherapy gun, energy is needed when a needle is inserted into the skin and when a predetermined dose of drug is injected into the skin. Depending on the energy sources of the mesotherapy gun, the mesotherapy gun is classified into an electric mesotherapy gun employing electricity as a source of energy and a pneumatic mesotherapy gun employing pneumatic compression as a source of energy. Compared to the electric mesotherapy gun, a pneumatic mesotherapy gun can be powered with lower energy and low heating even if used for a long time. The pneumatic mesotherapy gun is therefore preferred. An example of such a pneumatic mesotherapy gun has been described in the Korean Patent Registered No. 10-0 597 814 (issued June 10, 2006 and hereinafter referred to as "aforesaid reference 1").

Since a pneumatic injection gun according to the aforementioned reference 1 operates by means of the actuating mechanism using pneumatic compression, the pneumatic injection does not release heat even if the pneumatic injection gun is used for a long time, also the pneumatic injection gun can be used in a semi-permanent way. However, since the pneumatic injection gun according to the above reference 1 has a needle protruding outside, a patient may experience a great inconvenience or fear because of the needle.

In order to regulate a dose of injected drug, the pneumatic injection gun according to the aforementioned reference 1 comprises a regulator, which produces a regulated pressure to operate an injector pressure roller for applying pressure to inject a drug, and a electronic control unit (ECU) for controlling a duration of pressure application in order to adjust the dose of the injected drug. The method according to the aforementioned reference 1 can be implemented easily. However, at the time of injection of the drug, the resistance of the skin may vary depending on the amounts injected. In this way, even if a smaller dose of drug is injected, the injector receives the resistance of the skin to pressure, so that an incorrect dose of the drug may be injected. In addition, the drug may not be injected into the skin.

The present invention has been developed to solve the problems of the prior art and an object of the present invention is to provide an injection device in the form of a bar, able to greatly limit the feeling of great inconvenience or fear caused by an injection device according to the prior art. The present invention also aims at providing an injection device capable of precisely adjusting a dose of injected drug and the injection rate of the drug.

In order to achieve the above objectives, it is proposed an injection device comprising a housing made in the form of a rod, an injector support installed in an upper part of the housing and on which is mounted an injector, a needle insertion cylinder installed inside the housing to create a pressure for inserting into the skin a needle of the injector, a drug injection cylinder installed inside the housing to create a pressure for injecting into the skin a drug stored in the injector, and a motion transmitting member transmitting at a rear end of the injector a force generated by a compression operation of the drug injection cylinder. The motion transmitting member comprises a rod exerting pressure on the rear end of the injector, a first and a second support attached to an inner portion of the housing for supporting the rod so that the rod executes a moving movement. linear recess, a friction plate provided at its center with an insertion hole to insert the rod and to generate a static friction force to allow linear movement of the rod, and a regulating member of displacement adjusting the displacement of the friction plate through the compression operation of the drug injection cylinder. The displacement adjusting member comprises a threaded portion provided with a thread in an outer peripheral surface thereof so that the threaded portion is screwed into a through hole formed through the first support, a set screw cooperating with a side of the threaded portion for moving the threaded portion, and a shock absorbing member disposed on an opposite side of the threaded portion to absorb shock and noise occurring upon collision with the friction plate.

Preferably, the motion transmission member further comprises an abutment provided, at its center, with an insertion hole allowing the rod to be introduced into the insertion hole and having an end fixed to the second support for exerting a static friction force on the rod.

Preferably, the injection device further comprises springs interposed between the first support and the friction plate and between the second support and the stop to exert restoring forces respectively on the friction plate and the stop. As described above, according to the present invention, the casing is in the form of a rod in order to minimize the feeling of inconvenience or fear caused by the prior art gun-shaped injection device. in which a needle is installed. According to the present invention, the displacement of the movable friction plate is adjusted by means of the adjusting screw of the displacement control member, so that the dose of the drug injected into the skin and the injection rate of the drug can be precisely adjusted during a cycle of the compression operation of the drug injection cylinder.

The invention will be better understood on studying the detailed description of an embodiment taken by way of nonlimiting example and illustrated by the appended drawings, in which: FIG. 1 is a sectional view showing a device injection molding according to an exemplary embodiment of the present invention; and - Figures 2 and 3 are views showing the injection device of Figure 1.

An injection device according to an exemplary embodiment of the present invention will now be described in detail with reference to the accompanying drawings. FIG. 1 is a sectional view showing an injection device according to an exemplary embodiment of the present invention, and FIGS. 2 and 3 are views illustrating the operation of the injection device shown in FIG. 1. As shown in FIG. 1, the injection device according to an exemplary embodiment of the present invention comprises a rod-shaped housing 10, an injector support 12 installed in an upper portion of the housing 10 and on which is mounted an injector 11, a compressor 13 for compressing air to create a predetermined pneumatic pressure, a pair of solenoid valves 14 for performing an open / close operation to selectively transfer the created pneumatic pressure in the compressor 13, a needle insertion cylinder and a medicine injection cylinder 16 disposed in the housing 10, and a motion transmission member 20 for transmitting the generated force due to the compression operation of the injection cylinder 16 of medicament. Unlike a prior art gun-type injection device, the housing 10 is in the form of a rod or rod of great length. In this way, the present invention can reduce the feeling of unpleasantness or fear caused in a patient by the gun-type injection device. The injector support 12 is installed in the upper part of the housing 10 to fix the injector 11 thereon so that the housing 10 of the injector 11 does not move.

In this case, the needle of the injector 11 is fixedly supported by an additional support and is connected to the housing 10 of the injector 11 via a pipe to receive a drug.

The compressor 13 compresses air to create a pneumatic pressure of a predetermined value, for example about 7 kgf / cm 2. The solenoid valves 14 open or close to selectively pass the pneumatic pressure from the compressor 13 to the needle insertion cylinder or the drug injection cylinder under the control of an electronic control unit. The needle insertion cylinder performs a pressing operation to insert the needle of the injector 11 into the skin and the drug injection cylinder 16 performs a compression operation to inject into the skin, by the intermediate of the needle, the drug present inside the injector 11. The injection cylinder 16 of medicine comprises a cylinder rod 161 intended to come and go under the effect of the compression / expansion operation .

With reference to FIG. 2, the structure of the motion transmission member 20 will now be described in detail. As shown in FIG. 2, the motion transmission member 20 comprises a rod 21 enabling the support 12 to injector to move, first and second supports 22 and 23 spaced apart from each other by a predetermined distance, fixed to the housing 10, and allowing the rod 21 to penetrate therethrough, a friction plate 24 interposed between the first and second supports 22 and 23 and provided at its center with a through hole 241 so that the rod 21 passes through the through hole 241, a displacement adjusting member 25 serving to adjust the displacement of the friction plate 24 moving under the effect of the compression / expansion operation of the injection cylinder 16 of medicine, and a stop 26 installed outside the second support 23 while allowing the rod 21 to pass through and ayan t an upper end locked with a locking projection 231 of the second support 23. The rod 21 passes through the central portions of the first and second supports 22 and 23 fixed to the housing 10.

The first support 22 is provided, in a lower portion thereof, with a through hole 221 for allowing a threaded portion 251 of the displacement adjusting member 25 to pass therethrough and a workpiece. support 222 fixed to the inner part of the housing 10 to support one side of the threaded portion 251. The through hole 221 is provided, in an inner peripheral surface thereof, with a thread allowing the threaded portion 251 to be screwed, thanks to the thread, in the through hole 221.

The second support 23 is provided, on the rear face thereof, with the locking projection 231 bent downwards to allow the upper end of the stop 26 to be locked by the locking projection 231. The plate friction 24 is provided at its center with the through hole 241 to allow the rod 21 to pass through the through hole 241. The through hole 241 has a diameter slightly larger than that of the rod 21. A first spring 27 is interposed between the friction plate 24 and the first support 22 to exert a restoring force on the friction plate 24. The displacement adjusting member 25 comprises the threaded portion 251 screwed into the through hole 221 of the first support 22 a set screw 252 cooperating with one side of the threaded portion 251 to rotate the threaded portion 251, and a shock absorbing member 253 installed on an opposite side of the threaded portion 251 to absorb the threaded portion 251. The threaded portion 251 is provided with a thread in an outer peripheral surface thereof and is inserted into the through hole 221 of the first support 22 so that the threaded portion 251 is screwed into the through hole 221. The adjusting screw 252 is disposed on one side of the threaded portion 251 to rotate the threaded portion 251. The adjusting screw 252 is molded integrally with a end of the threaded portion 251, or fixed at a predetermined location by the support 222 attached to the inner portion of the housing 10, as shown in Figure 2. The shock absorbing member 253 preferably contains rubber or a resin to increase the rate of shock or noise absorption during the collision against the friction plate 24. According to the present invention, a dose of injected drug can be adjusted with the aid of the displacement adjusting member 25 having the above structure.

In other words, when the adjusting screw 252 rotates in a first direction, the threaded portion 251 approaches the friction plate 24 to reduce the displacement of the friction plate 24. In this way, the injected drug dose can be reduced under the effect of the compression operation of the injection cylinder 16 of medicament. On the other hand, when the adjusting screw 252 rotates in the opposite direction, the threaded portion 251 moves away from the friction plate 24, so that the displacement of the friction plate 24 is caused to increase. In this way, the injected drug dose is increased under the effect of the compression operation of the drug injection cylinder 16. Therefore, according to the present invention, the dose of drug injected into the skin and the injection rate of the drug can be accurately adjusted in a single cycle of the compression operation of the drug injection cylinder 16. The stop 26 is provided at its center with an insertion hole 261 so that the rod 21 passes through the insertion hole 261. The insertion hole 261 has a diameter slightly larger than that of the rod 21.

A second spring 28 is interposed between a lower portion of the abutment 26 and the second support 23 to exert a restoring force on the abutment 26. Consequently, the abutment 26 is inclined obliquely downwards towards the rear by the second spring 261. When the rod 21 advances, the lower portion of the stop 26 rotates around the upper end of the stop 26 so that the stop 26 is perpendicular to the rod 21, which allows the rod 21 to move forward flexibly.

Therefore, when the rod 21 retreats because the friction plate 24 rotates under the effect of the restoring force of the first spring 27 so that the friction plate 24 is perpendicular to the rod 21, the stop 26 rotates to be slanted obliquely downward towards the rear to prevent the rod 21 to be pushed back under the effect of the static friction force generated between the stop 26 and the rod 21. Ref. Figures 2 and 3 will now be described in detail the operation of the injection device according to an exemplary embodiment of the present invention.

As shown in Fig. 2, the displacement of the friction plate 24 is adjusted to accurately adjust the dose of drug injected and the injection rate of the drug. In detail, when a drug is to be injected rapidly into a portion of a human body such as the abdomen, the adjusting screw 252 rotates in a predetermined direction to move the friction plate 24 away so that the dose of the injected drug can be increased. In this way, the displacement of the mobile friction plate 24 is increased during the deployment operation of the drug injection cylinder 16, so that the dose of the drug injected and the injection rate of the drug are increased. In contrast, in the case of the face where the drug must be slowly injected in smaller amounts, the adjusting screw 252 rotates in the opposite direction so that the threaded portion 251 approaches the friction plate 24. In this way, the displacement of the movable friction plate 24 is reduced during the deployment operation of the drug injection cylinder 16, so that the dose of the injected drug and the injection rate of the drug are reduced.

As described above, according to the present invention, the displacement of the friction plate is adjusted by means of the adjustment screw of the displacement control member, so that the dose of medicament injected into the skin of the body human and drug injection rate can be accurately adjusted during a compression cycle of the drug injection cylinder. In particular, according to the present invention, since the dose of the drug injected and the injection rate of the drug are adjusted using the adjusting screw of the displacement control member, a regulator can be dispensed with. which, in the injection device according to the prior art, regulates the pneumatic pressure created by the compressor to the required pressure value in each cylinder of the injection device. When a power supply switch (not shown) is turned on to provide electricity, the electronic control unit starts the compressor 13 according to the preprogrammed operating procedure, so that the compressor 13 creates a predetermined pneumatic pressure. The paired solenoid valves 14 perform an open / close operation under the control of the electronic control unit to selectively supply the pneumatic pressure to the needle insertion cylinder and the drug injection cylinder 16. Therefore, the drug injection cylinder 16 executes the compression operation by the pneumatic pressure supplied by the compressor 13 when the solenoid valves 14 are open / closed, and the friction plate 24 receiving a force exerted by the rod 161 of the medicine injection cylinder 16 rotates a little, then comes and goes in a linear manner.

The injection cylinder 16 of medicament will now be described while distinguishing the deployment and compression operations. If the drug injection cylinder 16 executes the deployment operation, the friction plate 24 rotates around the through hole 241 in a clockwise direction as shown in FIG. 3 so that the friction plate 24 is inclined. obliquely downwards in the direction of the front, then advance by accompanying the rod 21.

In this case, the rod 21 advances due to the fact that the through hole 241 has a diameter slightly larger than that of the rod 21, and the appearance of a static friction force when the rod 21 comes into contact of the friction plate 24, and the first spring 27 is elastically deformed by the force exerted from the lower portion of the friction plate 24, so that the first spring 27 is compressed. At the same time, the abutment 26 inclined obliquely downward towards the rear of the rod 21 rotates a little, in the clockwise direction, until it is perpendicular to the rod 21 as the rod 21 advances. In this case, the second spring 28 is elastically deformed by the force exerted from the lower part of the abutment 26. In this way, the static friction force occurring between the rod 21 and the insertion hole 261 is reduced, although that the rod 21 can move freely. Therefore, as the rod 21 advances, a force is exerted on the rear end of the injector 11, so that the medicine contained in the injector 11 is injected into the skin via the needle. .

Then, when the drug injection cylinder 16 returns, the friction plate 24 rotates counterclockwise under the effect of the restoring force of the first spring 27, which has been elastically deformed, to retreat. The stop 26 rotates counterclockwise under the effect of the restoring force of the second spring 28, so that the stop 26 is inclined obliquely towards the rear of the rod 21. In this way, a friction force static appears between the insertion hole 261 of the abutment 26 and the rod 21.

Therefore, the rod 21 is prevented from moving back due to the static frictional force occurring between the rod 21 and the stop 26, so that the rod 21 is held in a predetermined position.

The drug contained within the injector 11 is injected into the skin in a single cycle of the compression operation of the drug injection cylinder 16 performed in accordance with the above procedure. In this case, the friction plate 24 and the stop 26 return to their original positions, and the rod 21 is immobilized in a position of advance movement. At the same time, when the rod 21 moves the rear end of the injector 11 as far as possible, the medication can no longer be injected into the skin. In this way, the injector 11 can be replaced by a new injector.

According to the present embodiment, in order to replace the injector 11 with a new injector, the lower part of the abutment 26 is pushed towards the injector 11, so that the abutment 26 becomes perpendicular to the rod 21, which reduces therefore the static friction force between the rod 21 and the stop 26.

After that, the rod 21 is pulled backwards and the injector 11 is separated from the injector support 12. Then, a new injector 11 is mounted on the injector support 12. According to the present invention, described above, the housing is in the form of a rod and the displacement of the movable friction plate is adjusted by means of the adjusting screw of the displacement adjusting member, so that the dose of the drug injected into the skin and the injection rate of the drug can be adjusted precisely.

Claims (3)

REVENDICATIONS1. An injection device comprising: a housing (10) formed as a rod; an injector holder (12) installed on the top of the housing (10) and on which an injector (11) is mounted; a needle insertion cylinder (15) installed inside the housing (10) to create a pressure for introducing into a skin a needle of the injector (11); a drug injection cylinder (16) installed within the housing (10) to create a pressure to inject into the skin the drug stored in the injector (11); and a motion transmitting member (20) transmitting at a rear end of the injector (11) the force generated by a compressing operation of the drug injection cylinder (16), the motion transmitting member (20) ) comprising: a rod (21) exerting pressure on the rear end of the injector (11); first and second supports (22, 23) attached to an interior portion of the housing (10) for supporting the rod (21) so that the rod (21) performs a linear back and forth motion; a friction plate (24) provided, at its center, with an insertion hole (241) for inserting the rod (21) and creating a static frictional force to allow linear movement of the rod (21); and a displacement adjusting member (25) adjusting the displacement of the friction plate (24) by the compression operation of the drug injection cylinder (16), and the displacement adjusting member Device (25) comprising: a threaded portion (251) provided, on an outer peripheral surface thereof, with a thread allowing the threaded portion (251) to be screwed into a through hole (221) formed through the first support (22), a set screw (252) cooperating with one side of the threaded portion (251) for moving the threaded portion (251); and a shock absorbing member (253) installed on an opposite side of the threaded portion (251) for absorbing shock and noise occurring in a collision against the friction plate (24). Injection device according to claim 1, wherein the motion transmitting member (20) further comprises a stop (26) provided at its center with an insertion hole (261) so that the rod (21) is introduced into the insertion hole (261) and having an end fixed to the second support (23) to exert on the rod (21) a static friction force. Injection device according to claim 2, further comprising springs (27,28) interposed between the first support (22) and the friction plate (24) and between the second support (23) and the stop (26). ) to exert a return force respectively on the friction plate (24) and the stop (26).