KR20160110319A - Combinational surgical procedure device capable of carbone dioxide/drug injection alternatively - Google Patents

Abstract

A combined treatment device for performing carbon dioxide and drug injection alternately. The combined operation apparatus according to the present invention includes a carbon dioxide container 100, a regulator 102 for controlling the discharge pressure of carbon dioxide discharged from the carbon dioxide container 100, and a controller 104, A check valve 120 having one end connected to the front end 110 of the syringe 11 and having a first end connected to the other end of the check valve 120 and a second end connected to the other end of the check valve 120, Way valve 122 connected to a carbon dioxide line for receiving carbon dioxide discharged from the main body 10 and connected to a needle of a syringe, and a syringe 11 for injecting a drug and carbon dioxide alternately And a handpiece (14) made to be able to carry out the operation.
According to the present invention, both of the two procedures can be alternately performed in one equipment, thereby making it possible to secure economic efficiency in terms of cost related to the purchase of equipment, Decomposition is supported, microinjection can be performed at the time of carbon dioxide and drug injection, and drug loss can be drastically reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a carbodiimide-

The present invention relates to a combined treatment apparatus for alternately performing carbon dioxide and drug injection, and more particularly, to a combined treatment apparatus for carbon dioxide and drug microinjection, in which two treatments are alternately performed in one equipment It is possible to secure economical efficiency in terms of cost related to the purchase of the equipment and also to support the fat decomposition using the medium and low frequency of the safe band frequency and to fine inject the carbon dioxide and the drug during the injection procedure, The present invention relates to a complex infusion treatment device capable of alternately performing carbon dioxide injection and drug infusion, which can reduce the loss of arterial blood pressure,

Korean Patent Laid-Open No. 10-2006-0040332 discloses a drug pumping method using an implantable drug injector and a drug injector. The drug injector according to the above-mentioned patent includes a case, a pump means provided inside the case for pumping the drug by sequentially applying pressure generated by interlocking operation of the cam on a tube circulating inside the case, And a pump means capable of pumping and controlling a very small flow rate at a low electric power, which is provided with a controller for controlling the pumping from the radio communication with the pump means and a power supply portion for supplying electric power to the pump means, Has been reducing the unit cost by using machine elements that are easy to implant in the body and have a large volume of production.

Korean Patent No. 10-1525854 discloses a portable automatic drug injector. The portable automatic medicine injector according to the present invention comprises a main body, a syringe which is installed inside the main body and has a syringe needle at the front side for storing medicines, and an actuator installed at the back side of the syringe, A plunger which can be operated forward and backward by the operation of the actuator and presses the drug in the syringe, a guide which is installed at the distal end of the main body and can be stored and taken out and which is pressed against the skin to generate a switch contact signal, And a controller for receiving a switch contact signal of the guide and outputting a control signal for pressing operation of the plunger, wherein the drug is automatically injected into the skin using a signal provided from a guide pressed against the skin during drug injection .

However, since the conventional technique as described above requires separately purchasing the device for injecting the drug, the injection of the carbon dioxide, and the low-frequency operation device, the equipment investment is considerably burdensome.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a combined treatment apparatus for carbon dioxide and drug microinjection, which can perform both procedures alternately in one equipment, In addition, it is possible to support the decomposition of fat by using medium and low frequency of safe band frequency, and it is possible to perform micro-injection in the case of carbon dioxide and drug injection. Carbon dioxide and drug injection which drastically reduce the loss of drug are alternately performed The present invention provides a combined infusion device capable of performing a low-frequency operation, and maximizing the use of a common component, thereby providing a combined operation device with a low investment cost.

According to an aspect of the present invention, there is provided a combined treatment device for alternately performing carbon dioxide and drug injection,

A main decompressor 102 for controlling the discharge pressure of carbon dioxide discharged from the carbon dioxide container 100 and a control unit 104 are housed in the interior of the main body 100, (10);

A check valve 120 having one end connected to the front end 110 of the syringe 11;

The first end is connected to the other end of the check valve 120 and the second end is connected to a carbon dioxide line for receiving carbon dioxide discharged from the main body 10 and the third end is connected to the needle of the syringe 122); And

And a handpiece (14) mounted with the syringe (11) so as to inject medicine and carbon dioxide alternately,

The handpiece (14)

A first insertion groove 140 into which a front end 110 of the syringe is inserted at a front end of the body, a second insertion slot 142 into which a finger support 112 of the syringe 11 is inserted at an intermediate portion of the body, A conversion unit 146 for converting the rotational motion of the rotary motor 144 into a linear motion and a linear motor 144 extending from one side of the conversion unit 146 and protruding upward, And a hand piece (14) provided with a pushing part (148) for pushing or pulling the thumb presser (114) of the syringe forward by the movement,

And the rotation motor 144 is controlled by the control unit 104.

In addition,

A syringe bracket 150 in the form of a band surrounding the body of the syringe 11; And

And a fixing screw 152 for fixing the syringe bracket 150 through a side of the body of the handpiece 14.

In addition,

A vacuum motor line provided inside the handpiece body; And

It is more preferable to include a sputum therapy apparatus 60 at the front end of the handpiece.

Also, it is preferable that the connection part of the gas connection part in the inside of the handpiece 14 has higher durability than the one-touch part, and there is no leakage of gas and the luer lock fitting is applied. It is more preferable that it is made of a barb fitting or a hose nipple so as to have a property.

In addition,

A low frequency output unit 70 for generating a medium low frequency; And

And an electrode patch 72 which is adhered to the skin by using the middle low frequency outputted from the middle low frequency output unit 70 so that the middle low frequency operation can be performed.

According to the present invention, it is possible to implement a complex treatment apparatus for carbon dioxide and drug microinjection, and it is possible to achieve economical efficiency in terms of cost related to the purchase of equipment by allowing two treatments to be performed alternately in one equipment In addition, it is possible to support the decomposition of fat by using the middle and low frequency of the safe band frequency, to carry out the microinjection during the carbon dioxide and drug injection procedure, and to carry out the carbon dioxide and drug injection which drastically reduce the loss of the drug, Provides a combined infusion treatment device that can perform treatment, but maximizes the use of a common part and provides a complex treatment device with a low investment cost.

FIG. 1 is a perspective view illustrating an example of a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention. FIG.
FIG. 2 is a block diagram showing an example of a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention. FIG.
FIG. 3 is a plan view showing a structure of a handpiece body applied to a combined treatment device for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention. FIG.
4 is a cross-sectional view illustrating a structure in which a syringe is coupled to a handpiece body applied to a combined treatment device for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention.
FIG. 5 is a view showing a rotation movement of the rotation motor 144 provided in the handpiece and a rotation shaft of the rotation motor 144 applied to the combined operation apparatus for alternately performing the injection of carbon dioxide and the drug according to the preferred embodiment of the present invention. And a pushing portion that extends from one side of the converting portion 146 and projects upward so as to push forward or backward the thumb pressing portion 114 of the syringe by linear motion, (148), < / RTI >
FIG. 6 illustrates another embodiment of the present invention, which includes an ancillary apparatus at the front end of a handpiece,
7 is a block diagram showing another embodiment of the present invention. In FIG. 7, a low-frequency output unit 70 and a middle-low-frequency output unit 70 are used to generate medium and low frequencies. Gt; of the electrode patch 72, which allows the electrode patch 72 to be exposed. And
8 is a block diagram showing a structure further including a gas injection amount selection unit 22 in a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a perspective view showing an embodiment of a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention. FIG. 2 is a block diagram of the combined treatment apparatus. FIG. 3 is a plan view showing a structure of a handpiece body applied to a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention.

Referring to FIGS. 1 and 2, a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to the present invention includes:

A main decompressor 102 for controlling the discharge pressure of carbon dioxide discharged from the carbon dioxide container 100 and a control unit 104 are housed in the interior of the main body 100, (10)

Referring to Figure 3,

The check valve 120 has a first end connected to the other end of the check valve 120 and a second end connected to the first end 110 of the syringe 11 via a check valve 120, Way valve 122 connected to the needle of the syringe and a handpiece 14 equipped with the syringe 11 and adapted to inject the drug and carbon dioxide alternately .

Further, for the purpose of secondarily adjusting the stable and uniform pressure to the handpiece end with respect to the first regulated gas pressure, a second pressure reducer (not shown) may be provided adjacent to the handpiece separately from the first pressure reducer 102 have.

In addition, a solenoid can be used to control the supply or cutoff of carbon dioxide from the carbon dioxide container to the handpiece side. It is more preferable that the size of the tube connected from the solenoid to the handpiece body is 1.2 mm in inner diameter. If it is less than 1.2 millimeters, the amount of carbon dioxide discharged may become a bottleneck, which may take a long time to perform, and the effect of the treatment may be reduced due to insufficient supply of carbon dioxide. If it is more than 1.2 mm, over-supply may occur between the supply and cut-off of carbon dioxide, or the patient may feel pain.

FIG. 4 is a cross-sectional view illustrating a structure in which a syringe is coupled to a handpiece body applied to a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to a preferred embodiment of the present invention.

4, the handpiece 14 includes a first insertion groove 140 into which a front end 110 of a syringe is inserted and a finger support 112 of the syringe 11 inserted into a middle portion of the body, A conversion unit 146 for converting the rotational motion of the rotary motor 144 into a linear motion and a conversion unit 146 for converting the rotational motion of the rotary motor 144 into linear motion, And a pushing portion 148 which is extended from one side of the squeezer and protrudes upward and which pushes the squeezing table 114 of the syringe forward or pulls the squeezer backward by linear motion, 104).

3, the handpiece 14 is provided with a syringe bracket 150 and a syringe bracket 150, which are in the form of a band that surrounds the body of the syringe 11, and the syringe bracket 150 is fixed through one side of the body of the handpiece 14 The syringe 11 is rigidly attached to the handpiece 14 including the fixing screw 152 without clearance, and precise injection amount control is possible.

It is also possible to separate the carbon dioxide line from the handpiece as described above and easily perform the operation with a separate pen mechanism to use the carbon dioxide line alone.

In addition, when the drug alone is used, the handpiece 14 can be used alone by putting the syringe 11 thereon. In case of using the carbon dioxide and the drug combination, the three-way valve 124, which allows CO 2 and the drug to be injected alternately in one handpiece, And a handpiece body (14) using a motor and a check valve (120) for preventing backflow at the time of microinjection and injection of the drug and preventing the drug at the tip of the injection needle from flowing down. Lt; RTI ID = 0.0 > and / or < / RTI > The check valve 120 allows the carbon dioxide gas to vent to the remaining drug of the three-way valve without backflow in the syringe drug direction.

FIG. 5 is a schematic view illustrating a rotation motion of the rotation motor 144 and a rotation shaft of the rotation motor 144 of the handpiece, which is applied to the combined operation apparatus for alternately performing the injection of carbon dioxide and the drug, according to a preferred embodiment of the present invention. And a pushing portion that extends from one side of the converting portion 146 and projects upward so as to push forward or backward the thumb pressing portion 114 of the syringe by linear motion, (148).

Referring to FIG. 5, the handpiece applied to the combined treatment apparatus for alternately performing the injection of carbon dioxide and the drug according to the present invention includes a rotation motor 144 and a rotation motor 144, And a pressing part 148 which extends from one side of the converting part 146 and protrudes upward and which pushes the squeezing table 114 of the syringe forward or backward by rectilinear motion Respectively. The conversion unit 146 is constituted by a ball screw structure and converts the rotational motion of the rotary motor 144 into a linear motion. The pressing unit 148, which extends from one side of the conversion unit 146 and protrudes upward, The squeezing table 114 of the syringe is pushed forward or backward while reciprocating. More preferably, the conversion unit 146 is capable of fine advancement or rearward movement using a five-line screw for quick movement when moving to the origin for fine adjustment or replacement.

FIG. 6 shows another embodiment of the present invention which further includes a phantom therapy device at the front of the handpiece. Referring to FIG. 6, a vacuum motor line is provided in the handpiece body, and a spinal therapy device 60 is mounted in front of the handpiece.

When vacuum is applied to the vacuum motor line in such a device, a vacuum can be applied to the subcontinent therapy device 60 that comes into contact with the skin, and the multi-needle can be used in a state in which the vacuumed skin is pulled. In the multi-needle operation, for example, a drug such as hyaluronic acid is directly injected deep into the skin using a multi-needle injection method in which a skin is stretched by applying a negative pressure to the skin, and then a plurality of needles are simultaneously inserted. A vacuum motor line is provided in the body of the patient, and a buccal therapy apparatus 60 is provided. When a patient uses the syringe in a state in which the skin is pulled, various skin cosmetic procedures including a so- This is an advantage.

FIG. 7 shows another embodiment of the present invention, in which a low-frequency output unit 70 for generating a medium-low frequency and a medium-low frequency output from the medium-low frequency output unit 70 are used to perform low- The structure of the electrode patch 72 is shown. Referring to FIG. 7, the middle low frequency output unit 70 generates a medium low frequency. In relation to medical care, 'middle low frequency' is used if the frequency is below 20,000 Hz, 'ultrasonic' if it is between 20,000 and 50,000 Hz, and 'high frequency' if it is above 50,000 Hz.

The above apparatus not only supports lipolysis using a medium and low frequency of a safe band frequency, but also can perform microinjection in the course of carbon dioxide and drug injection, and carbon dioxide and drug injection which drastically reduce drug loss can be alternately performed Low frequency treatment is possible.

In this embodiment, the middle-low-frequency output section 70 uses a low-frequency medical current of 101.5 KHz for gradually adjusting the power to a set intensity by supplying a middle low-frequency current to the electrode patch of the handpiece body.

A syringe bracket 150 having a band shape surrounding the body of the syringe 11 and a fixing screw 152 for fixing the syringe bracket 150 through one side of the body of the handpiece 14 .

The minimum flow rate of CO 2 gas can be finely controlled from 0.01cc to 5.00cc by the solenoid valve's intermittence, and the minimum flow rate of drug can be finely adjusted from 0.01ml to 5.00ml. The structure for holding the syringe on the handpiece holds both wings and the outlet to be scanned, and the bracket holds it in the center of the syringe, so that a wide variety of 5cc syringes can be attached and detached. It should be noted that the present invention uses a 1cc, 2cc, and 5cc chemical solution for the syringe currently used in the face, but the present invention corresponds to one 5cc syringe.

On the other hand, carbon dioxide gas injection is a treatment method to remove subcutaneous fat by injecting medical carbon dioxide that is harmless to the human body. It has direct fat dissolving effect due to the volume of gas injected and smoothes the oxygen supply of adipose cells, At the same time, it increases the elasticity of the skin due to the expansion of peripheral blood vessels and lymphatic vessels, which increases the fat absorption ability of the noodles to improve the carrying capacity of the carbooxy therapy to solve the partial obesity, as well as carbon dioxide gas to the skin by injecting carbon dioxide gas Skin treatments have been developed and applied to improve elasticity and improve fine skin tone. These procedures are operated by separate equipment because the scale of the gas injection amount is different.

In order to solve such a problem, FIG. 8 shows a structure further including a gas injection amount selection unit 22 in a combined treatment apparatus for alternately performing carbon dioxide and drug injection according to another embodiment of the present invention. Referring to FIG. 8, the combined treatment device according to another embodiment of the present invention includes a secondary pressure reducer 202 for reducing the pressure of carbon dioxide discharged through the primary pressure-reducing device 102 to about 2 to 3 bar, A first solenoid valve 210 for interrupting the output of the secondary pressure reducer 202 and a second solenoid valve 210 connected between the secondary pressure reducer 202 and the first solenoid valve 210, And a second solenoid valve 220 connected between the first solenoid valve 210 and the second solenoid valve 220 for interrupting the output of the first solenoid valve 210, And a bypass stage of the first Y-shaped branch 221 and the second Y-shaped branch 222 are connected to each other.

When the minimal amount of carbon dioxide is supplied to the dermal layer, the combined treatment device operates the electromagnetic valves of the primary solenoid valve 210 and the secondary solenoid valve 220, 12 and the secondary pressure reducer 202. In the case of supplying a large amount of carbon dioxide, the electromagnetic valve of the primary solenoid valve 210 is not operated and the secondary solenoid valve 220), so that the structure and algorithm that keeps the pressure of the lower part of the dermis or the large amount of carbon dioxide for the purpose of the obesity improvement constantly through the two Y branch branch supply lines, It is possible to make it possible to select a large region and a large region.

As described above, according to the present invention, it is possible to implement a combined treatment device for carbon dioxide and drug microinjection, and to perform all of the two treatments alternately in one equipment. Thus, In addition, it is possible to support the decomposition of fat by using medium and low frequency of safe band frequency, and it is possible to perform micro-injection in the case of carbon dioxide and drug injection. Carbon dioxide and drug injection which drastically reduce the loss of drug are alternately performed It is possible to provide a complex infusion treatment device capable of performing low-frequency treatment, but a combined treatment device is provided even at a low investment cost by maximizing a common part.

10: Body
100: Carbon dioxide container 102: Primary pressure reducing device
104: control unit 106: monitor
120: Check valve 122: 3 way valve
14: Handpiece body
22: gas injection amount selection unit
202: Second pressure reducing device 210: First solenoid valve
221: first Y-axis branch 220: second solenoid valve
222: 2nd Y donor contribution

Claims (6)

A main body 10 in which a control unit 104 is accommodated and a monitor 106 is mounted on the upper part of the regulator 102 and a regulator 102 for regulating the discharge pressure of carbon dioxide discharged from the carbon dioxide container 100, ;
A check valve 120 whose one end is connected to the front end 110 of the syringe 11;
The first end is connected to the other end of the check valve 120 and the second end is connected to a carbon dioxide line for receiving carbon dioxide discharged from the main body 10 and the third end is connected to the needle of the syringe 122); And
And a handpiece (14) mounted with the syringe (11) so as to inject medicine and carbon dioxide alternately,
The handpiece (14)
A first insertion groove 140 into which a front end 110 of the syringe is inserted at a front end of the body, a second insertion slot 142 into which a finger support 112 of the syringe 11 is inserted at an intermediate portion of the body, A conversion unit 146 for converting the rotational motion of the rotary motor 144 into a linear motion and a linear motor 144 extending from one side of the conversion unit 146 and protruding upward, And a hand piece (14) provided with a pushing part (148) for pushing or pulling the thumb presser (114) of the syringe forward by the movement,
Wherein the rotation motor (144) is controlled by the control unit (104). The method according to claim 1,
A syringe bracket 150 in the form of a band surrounding the body of the syringe 11; And
Further comprising a fixation screw (152) for fixing the syringe bracket (150) through one side of the body of the handpiece (14), wherein the fixation screw (152) alternately performs the injection of carbon dioxide and the drug. The method according to claim 1,
A vacuum motor line provided inside the handpiece body; And
A combined treatment device for alternately performing carbon dioxide and drug injection, characterized in that a sputum therapy device (60) is mounted on the front of the handpiece and the skin is pulled so that a procedure using multi needle can be performed. 2. The handpiece according to claim 1, wherein a connecting part of the gas connection part inside the handpiece (14) has a durability higher than that of a one-touch part and uses a luer lock fitting without leakage of gas, Wherein the bifurcated portion is made of a barb fitting or a hose nipple so as to provide the carbon dioxide and the drug. The method according to claim 1,
A low frequency output unit 70 for generating a medium low frequency; And
Further comprising an electrode patch (72) for adhering to the skin using middle low frequency outputted from the middle low frequency output unit (70) to enable middle low frequency operation. A complex treatment device. The method according to claim 1,
Further comprising a gas injection amount selector (22) between the first pressure reducer (102) and the handpiece (12)
The gas injection amount selection unit 22,
A secondary pressure reducer 202 for reducing the pressure of carbon dioxide discharged through the primary pressure reducer 102 to about 2 to 3 bar;
A first solenoid valve 210 for interrupting the output of the secondary pressure reducer 202;
A first Y-shaped branch 221 connected between the second pressure reducer 202 and the first solenoid valve 210;
A second solenoid valve 220 for interrupting the output of the first solenoid valve 210;
A second Y-shaped branch portion 222 connected between the first solenoid valve 210 and the second solenoid valve 220;
Wherein the first Y-branch 221 and the second Y-branch 222 are connected to each other by a bypass line. The combined treatment device alternately performs carbon dioxide and drug injection.

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