RU2003114109A - METHOD AND DEVICE OF PLASMA COAGULATION OF TISSUES - Google Patents

Claims (8)

1. A method of plasma coagulation by converting the energy of a power source into high-frequency electromagnetic energy in a frequency converter, increasing the potential of high-frequency electromagnetic energy in a high-frequency transformer and transferring electromagnetic energy using a plasma-forming electrode through a gas gap to a workpiece, characterized in that the active power of the power source is converted into reactive power stored by a high-frequency transformer at its own frequency Resonance resonance with the formation of standing current and voltage waves in it, phase shifted by a quarter of a phase, creates a voltage antinode on the working output of the high-voltage winding of the high-frequency transformer, which is transmitted to the electrode inserted into the dielectric bulb filled with metal vapor and ignites an electric a high-frequency discharge, which forms a plasma glowing in the ultraviolet and optical ranges inside the bulb, which, as a conductive medium, transmits voltage high-frequency about a transformer of a dielectric sheath of inorganic or polymeric material, including transparent, for example quartz, which isolates the current of free charges and transfers to its external side a polarizing current component excited by a high-frequency transformer, which, in turn, forms between the outer side of the dielectric flask and surface treated working torch of cold plasma. 2. The method of plasma coagulation according to claim 1, characterized in that the free current of free charges to the surface being treated is completely prevented, and the polarization component of the electric current is transferred directly from the electrode through a dielectric layer, for example, quartz or fluoroplastic - 4D, by the formation of volumetric electroacoustic bulk waves arising from the conversion of the energy of a high-frequency electromagnetic field into coordinated oscillations of the ions of the crystal lattice, or of molecules with dipo ln moment. 3. The method of plasma coagulation according to claims 1 and 2, characterized in that the gas gap is ionized by ultraviolet light emitting diodes or an ultraviolet lamp. 4. The method of plasma coagulation according to claims 1 to 3, characterized in that the gas discharge plasma is saturated with silver ions, which are previously applied in the form of a thin film on the surface of the insulating material. 5. A plasma coagulation device containing a power source, a variable frequency high-frequency AC converter and a high-frequency transformer connected to it, the high-frequency transformer contains a low-voltage and a high-voltage winding, characterized in that one of the terminals of the high-voltage winding is connected to an electrode integrated on one side of the miniature a lamp filled with vapors of an easily ionized substance, and on the side opposite to the built-in electrode, the lamp is made of die ektrika, for example quartz, and has the shape of a cone or sphere, this side facing the lamp during operation wound surface is plasma-coagulator. 6. The plasma coagulation device according to claim 5, characterized in that a thin layer of silver is deposited on the surface of the dielectric. 7. A plasma coagulation device containing a power source, a variable frequency high-frequency AC converter and a high-frequency transformer connected to it, the output of which is connected to a needle plasma-forming electrode, the high-frequency transformer containing a low-voltage and a high-voltage winding, while one of the terminals of the high-voltage winding is connected to needle plasma-forming electrode, and the second is isolated, the outputs of the low-voltage section are connected to the converter in sokochastotnogo alternating voltage, characterized in that the plasma needle electrode insulated by a dielectric layer, such as quartz, and includes a built-in LED or lamp with radiation in the ultraviolet range. 8. The plasma coagulation device according to claim 7, characterized in that a thin layer of silver is deposited on the surface of the dielectric.