RU2234881C2 - Plasmotron device for cutting biological tissues and coagulating blood vessels - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has cathode unit having canals for supplying plasma-forming gas to electric arc combustion zone, wolfram electrode and collet-chuck for fixing it relative to combustion chamber of the electric arc canal for forming plasma jet, insulating handle. Electric arc combustion chamber and canal for forming plasma jet are arranged directly in anode unit and not in removable nozzle for producing plasma. The insulating handle is arranged at an angle.

EFFECT: enhanced effectiveness of treatment; improved operation characteristics.

1 dwg

Description

The invention relates to medical equipment.

In the process of preliminary patent search in the fund of domestic descriptions of inventions for copyright certificates and patents of the prototype, the claimed technical solution was not identified.

“A device for plasma-arc cutting” according to A.S. USSR No. 1133793, “plasma-surgical complex Torch 01” and a plasma scalpel for laparoscopic operations (St. Petersburg).

The disadvantage of the last of the above is the very small electric power of the arc (current strength 4-12 A, voltage 16-18 V). To increase the cutting and coagulating properties of a plasma jet generated in a plasma-forming channel, they seek to increase either the arc current or its voltage, or both at the same time. The small electric power of the scalpel limits its cutting properties and they are used mainly as plasma coagulators.

With an increase in the arc current and voltage on the arc, the power of the plasma jet, its temperature, heat content, jet length, and hence the cutting and coagulating properties, increase. In the plasma-surgical complex Fakel 01, the arc current is 25 A, so the cutting and coagulating properties are better. In addition, the arc column is stretched (the distance from the cathode spot to the anode spot), this is achieved due to the double anode. The extended column of the arc increases the voltage on the arc, increases its power, improves the parameters and properties of the plasma jet. The disadvantages of this device include insufficient for the effective dissection of biological tissues, the magnitude of the arc current (25 A), especially paranchymal organs (liver, spleen) and coagulation of their blood vessels. It is not intended to use helium as a plasma-forming gas, which significantly increases the heat content of the plasma jet, its cutting and coagulating properties.

A device for plasma-arc cutting of biological tissues according to A.S. 1133793, which allows the use of arc currents of 30 and 60 A in a helium plasma-forming medium. This device has better cutting and coagulating properties compared to the above, the current strength is increased to 60 A, and helium rather than argon is used as the plasma-forming gas. Helium plasma, in comparison with argon, with the same arc current strength has a high heat content, therefore, it has better cutting and coagulating properties, but it reduces the thermal stability of the anode and cathode, more quickly leads to their destruction and the need for replacement. In addition, the disadvantages of this device include instances of leakage and leakage of coolant through the gasket connecting the plasma nozzle to the anode assembly. The arc burning chamber and the jet formation channel of the replaceable plasma forming nozzle are located along the axis of the plasma torch. This creates inconvenience when performing surgical operations in hard to reach places.

The tasks to which the invention is directed are: to create a small-sized and convenient plasmatron with high cutting and coagulating properties, with maximum thermal resistance of the arc burning chamber and the plasma jet forming channel; eliminating the possibility of leakage of coolant through the gasket; the use of both argon and helium as a plasma-forming gas; ensuring high thermal resistance of the tungsten electrode.

The tasks are solved in such a way that the plasmatron has a cathode assembly with channels for supplying a plasma-forming gas to the combustion zone of the electric arc, a tungsten electrode fixed by a collet relative to the arc burning chamber and the plasma jet forming channel, and the plasma arc burning chamber and the plasma jet forming channel are made directly in the anode assembly, and not in a replaceable plasma-forming nozzle. Moreover, the diameter of the combustion chamber and its length provide for an arc current of 30-60 A, minimum and maximum consumption of argon or helium, the current density in the anode nozzle is not more than 5-10 A / mm ² , and the diameter of the formation channel and its length guarantee optimal high cutting and coagulating properties of a plasma jet.

The drawing shows a plasmatron for cutting biological tissues and coagulation of blood vessels.

The plasma torch includes an anode assembly 1 (see drawing), in which a plasma-forming channel 2 and a plasma jet formation channel 3, a gas chamber 4, a cooling channel 5, a partition 6, tubes 7 and 7a for supplying cooling water to the cooling channel 5, the cathode assembly 8 are made into which a collet 9 is screwed, having a gas chamber 10 and cut petals 11, which, in turn, when screwing the collet 9 fix the tungsten electrode 12 relative to the plasma forming channel 2.

The cathode assembly 8 is isolated from the anode by a ceramic insulator 13 and silicone 14. A cooling channel 15 is formed in the cathode assembly, into which cooling water is supplied through a water pipe 16. In the cathode assembly there is a water partition 17, external insulators 18, 19, 20 and a handle-insulator 21.

The plasma torch works as follows. After supplying cooling water and a plasma-forming gas — argon or helium — the gas gap between the tungsten electrode and the cylindrical surface of the anode combustion chamber is pierced and ionized. At the same time, voltage is supplied to the electrode and anode from the power supply of the electric arc. The arc is initially ignited at a lower current and lower gas flow rate (arc current is 30 A, and the plasma-forming gas supply pressure is 0.2 atm). This avoids the outflow of tungsten from the end of the electrode, its heating and the formation of an anode spot in the plasma-forming channel of the anode of the anode around the entire circumference of the arc burning chamber. After that, the plasma torch is automatically displayed on the operating mode with a current strength of 60 A and a plasma-forming gas flow rate at a pressure in the gas network of 0.2 atm. Then, the mode with the cutting and coagulating properties of the plasma jet necessary for a certain type of operation is set remotely (by the pedal).

If necessary, change the arc current and the flow rate of the plasma-forming gas. In this case, with an increase in the current strength and gas flow rate, the cutting and coagulating properties of the plasma jet increase, and vice versa, with a decrease in the current strength and the flow rate of the plasma-forming gas, the jet length, its temperature, and hence the cutting and coagulating properties, decrease.

Claims (1)

A plasma torch for cutting biological tissues and coagulation of vessels, containing a cathode assembly with channels for supplying a plasma-forming gas, in which a collet is screwed to fix the tungsten electrode relative to the plasma-forming channel and the channel for forming a plasma jet of the anode assembly, separated from the cathode assembly by insulators and equipped with a gas chamber, cooling channels are made to the cathode and anode nodes, characterized in that the cooling channels are provided with partitions, the collet has a gas chamber, and the cathode node is provided with a handle -insulator made at an angle.