KR100599883B1 - Water jet resection apparatus - Google Patents

Abstract

The present invention provides a biotissue ablation apparatus for use in surgery, a tank for storing sterile saline; An injection nozzle for spraying physiological saline stored in the tank on a living tissue; And a pump device for applying pressure to the physiological saline solution to spray the physiological saline solution to the injection nozzle at a predetermined pressure, the injection nozzle comprising a flow path for guiding the physiological saline solution to the outside and a flow path on the flow path. It is characterized in that it comprises a rotating body rotatably installed in the axis and having a plurality of injection holes that are not parallel to each other so that the physiological saline can be sprayed to form a spiral stream of water. The medical ablation apparatus of the present invention having such a feature can selectively ablate only desired biological tissues to prevent unnecessary bleeding.

Description

Medical Ablation Apparatus {WATER JET RESECTION APPARATUS}             

1 shows a medical ablation apparatus according to an embodiment of the present invention,

Figure 2 is a cross-sectional view of the injection nozzle of the medical ablation device of Figure 1,

3 is a front view, a rear view, and a sectional view of a rotating body mounted inside the nozzle of FIG. 2,

4 is a state diagram used in the medical ablation device of FIG.

<Description of Symbols for Major Parts of Drawings>

110 tank 120 connector

130 discharge pipe 140 check valve

150: chamber 200: injection nozzle

300: piston 310: bearing

320: screw bolt 330: nut

340: Pulley 350: Belt

400: motor 500: controller

The present invention relates to an ablation apparatus used in a surgical operation, and more particularly, to a medical ablation apparatus that can reduce unnecessary bleeding generated during the ablation process by dissecting only the desired biological tissue.

Modern people are under a lot of stress due to frequent drinking and excessive work, and many people suffer from or suffer from this. Hepatitis is one of the diseases that modern people suffer from. Hepatitis is one of the common diseases in our society where drinking is frequent.

Hepatitis can be easily treated early on. However, if hepatitis is left inadvertently, it can spread to liver cancer through cirrhosis of the liver. Hepatotomy and liver transplantation are the treatment methods for liver cancer. In general, liver resection is frequently performed. Liver resection is a method of incision in the area of the liver where function is reduced or cancer cells are generated. This procedure is because the excision of the blood vessels with hepatic parenchyma, it is difficult to secure the field of vision due to the fatigue from the blood vessels. Due to this problem, ultrasonic aspirators have recently been used. By adjusting the size of the ultrasound properly, the device destroys the liver parenchyma and destroys the blood vessels inside the liver, thereby minimizing bleeding due to hepatic resection. However, these ultrasonic aspirators are very expensive and are difficult to use in small surgical hospitals.

The present invention is to solve the above problems, it is an object of the present invention to provide a simple and low-cost medical ablation device that can replace the expensive ultrasonic aspirator.

According to an aspect of the present invention, a biotissue ablation apparatus for use in surgery, comprising: a tank in which sterile saline solution is stored; An injection nozzle for spraying physiological saline stored in the tank on a living tissue; And a pump device for applying pressure to the physiological saline solution to spray the physiological saline solution to the injection nozzle at a predetermined pressure, the injection nozzle comprising a flow path for guiding the physiological saline solution to the outside and a flow path on the flow path. A medical ablation apparatus is provided, which includes a rotating body installed rotatably on an axis and having a plurality of injection holes that are not parallel to each other so that the physiological saline can be sprayed while forming a spiral stream of water.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a medical ablation apparatus according to an embodiment of the present invention.

As illustrated in FIG. 1, the ablation apparatus of the present invention is provided with a tank 110 and a chamber 150. Tank 110 is filled with physiological saline used for liver resection, the connection pipe 120 is provided to the outside. The connector 120 connects the chamber 150 and the tank 110. The connection pipe 120 is provided with a check valve 140, the check valve 140 allows only the flow from the tank 110 to the chamber 150 direction. Thus, the saline solution stored in the tank 110 may move to the chamber 150, but the saline filled in the chamber 150 may not move to the tank 110.

The discharge pipe 130 is installed on the opposite side of the chamber 150 connected to the tank 110. The discharge pipe 130 is provided with a check valve 140 to allow only one direction of flow so that outside air and other foreign matter does not enter the chamber 150, the injection nozzle (200) at the end of the discharge pipe 130 ) Is combined. The structure of the injection nozzle 200 will be described later with reference to the drawings.

The chamber 150 is a semi-sealed structure with an open bottom, and a piston 300 is installed on the bottom of the chamber 150. The piston 300 moves up and down inside the chamber 150 and serves as a pump to discharge the physiological saline filled in the chamber 150 while reducing or expanding the volume space of the chamber 150. A packing 301 is coupled to the circumferential surface of the piston 300 so that the piston 300 may be in close contact with the inner surface of the chamber 150.

The piston 300 is coupled to the screw bolt 320 via the bearing 310. Therefore, when the screw bolt 320 moves up and down, the piston 300 also moves along the moving direction of the screw bolt 320. As mentioned above, a bearing 310 is installed between the piston 300 and the screw bolt 320. Bearing 310 serves to absorb the rotational force of the screw bolt 320 to move up and down by the screw movement so that the piston 300 moves up and down without rotating. Screw bolt 320 is fastened to a nut 330 fixed to the support frame 100, the position is fixed by the nut 330. The nut 330 is rotatably installed on the support frame 100 and coupled to the pulley 340. The pulley 340 is connected to the motor 400 via the belt 350. Therefore, when the motor 400 is driven, the rotational force of the motor 400 is transmitted to the pulley 340 through the belt 350 to rotate the screw bolt 320 engaged with the nut 330 and the nut 330. The screw bolt 320 moves along the thread in accordance with the rotation direction of the nut 330 and moves upward or downward. On the other hand, the control device 500 is installed on one side of the ablation device to control the motor 400 to operate the rotational direction and the rotational speed of the motor 400 to the user set value.

2 is a cross-sectional view of the injection nozzle of the medical ablation apparatus of FIG. 1 and FIG. 3 is a front view, a rear view, and a sectional view of a rotating body mounted inside the nozzle of FIG. 2.

As shown in FIG. 2, the injection nozzle 200 has a flow path 210 that narrows toward an outlet, and a rotation body 220 is installed in the flow path 210. The rotating body 220 is installed near the outlet of the injection nozzle 200 in a cylindrical shape and rotates around the flow path 210. To this end, a plurality of grooves 223 are formed on the circumferential surface of the rotating body 220 to reduce friction with the flow path 210. In addition, the rotary body 220 is formed with a central injection hole 221 and a plurality of outer injection holes 222 communicating with the flow path 210, in the physiological saline flows in the center as shown in FIG. A plurality of outer injection holes 222 are distant in the circumferential direction around the injection hole 221 and a plurality of outer injection holes 222 are located close to the central injection hole 221 on the surface where the physiological saline is discharged. . Accordingly, the physiological saline passing through the flow path 210 of the injection nozzle 200 is divided into several streams while passing through the rotating body 220 and then merged again based on the streams passing through the central injection hole 221.

At this time, the combined stream is a form in which several streams are gathered instead of a single stream, and a plurality of streams passing through the outer injection hole 222 are wound in a spiral around the stream that has passed through the central injection hole 221. It forms a large amount of bubbles generated in the process of merging several streams of water. Therefore, the stream of water sprayed through the injection nozzle 200 of the present invention is effective to ablate a biological tissue such as liver. On the other hand, the injection nozzle 200 is detachable to insert the rotor 220 therein.

Referring to the medical ablation device of the present invention made in such a form as follows. 4 is a state diagram used in the medical ablation device of FIG.

As shown in FIG. 4, when the motor 400 operates in a state in which the chamber 150 is filled with physiological saline, the pulley 340 and the nut 330 coupled to the pulley 340 rotate by the belt 350. While moving the screw bolt (320) upward. Accordingly, the chamber 150 is compressed by the piston 300 to discharge the physiological saline solution of the chamber 150 to the injection nozzle 200 along the discharge pipe 130. The physiological saline discharged through the injection nozzle 200 contains a myriad of bubbles (air bubbles), so that biological tissues such as liver can be effectively excised. In addition, it is possible to adjust the discharge pressure of the physiological saline discharged through the injection nozzle 200 by adjusting the rotational speed of the motor 400 can be adjusted to the injection pressure according to the characteristics of the biological tissue to be excised.

On the contrary, when the motor 400 rotates in the opposite direction, the nut 330 fastened to the screw bolt 320 rotates in the opposite direction so that the screw bolt 320 is lowered and the chamber 150 is connected to the piston 300. By swelling. At this time, the external air and the physiological saline cannot be introduced through the discharge pipe 130, so that the saline stored in the tank 110 is filled in the chamber 150 along the connection pipe (120). Therefore, the screw bolt 320 moves up and down in accordance with the rotational movement of the motor 400 and repeats a series of processes of spraying or filling the saline solution of the chamber 150. Meanwhile, although not shown in the present embodiment, the limit switch is installed to detect the displacement of the screw bolt 320 in the support frame 100 or other parts, and change the rotational direction of the motor 400 accordingly. It is good.

The present invention has the advantage of reducing unnecessary bleeding by cutting only the necessary biological tissue by adjusting the water pressure injected from the nozzle device. In addition, the present invention can be supplied to the hospital at a low price because the structure is simple, unlike the conventional ultrasonic aspirator, thereby reducing the cost of resection surgery.

Although the technical concept of the medical ablation apparatus has been described together with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

As a biotissue ablation device used in surgery, Tanks in which sterile saline is stored, An injection nozzle having a flow path for injecting physiological saline stored in the tank to biological tissue, A rotating body installed in the flow path of the injection nozzle and having a plurality of outer injection holes not parallel to the central injection hole parallel to the flow path, and rotating around the flow path as a central axis; and And a pumping device for applying pressure to the physiological saline solution such that the physiological saline is sprayed through the injection nozzle at a predetermined pressure. The method according to claim 1, The central injection hole is formed in the center of the rotating body, The outer injection hole is a medical ablation device characterized in that the circumferentially disposed around the central injection hole so that the physiological saline passing through the outer injection hole wound around the physiological saline passed through the central injection hole. delete

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