RU2013105231A - CRYOSURGICAL APPARATUS - Google Patents

Abstract

A cryosurgical device, including a heat exchanger, an electric heater and a temperature sensor, a sealed thermally insulated tank with liquid nitrogen (refrigerant source) connected to a removable cryo-instrument with a flexible thermally insulated refrigerant supply pipe (hydraulic line), electromagnetic valves, a valve control unit, a sensor and a refrigerant pressure regulator, characterized in that the cryosurgical apparatus additionally contains a high-pressure cylinder with helium, while the refrigerant pressure regulator according to it is switched off by its outlet to the vapor cavity of the tank with liquid nitrogen through a two-way solenoid valve with a drainage outlet into the atmosphere, and through its entrance to the high-pressure cylinder with helium, a mechanical non-return valve for liquid nitrogen is installed at the inlet of the heat-insulated refrigerant supply pipe, while the refrigerant supply pipe and the refrigerant discharge pipe from the cryotool is connected in parallel with the removable cryotool to an additional closed gas circulation loop consisting in series of a heat exchanger with an electric heater, a non-return valve and a compressor pump connected by its inlet to the refrigerant pipe with a drain solenoid valve on it and through an additional solenoid valve and an additional gearbox to the same helium cylinder.

Claims (1)

A cryosurgical device, including a heat exchanger, an electric heater and a temperature sensor, a sealed thermally insulated tank with liquid nitrogen (refrigerant source) connected to a removable cryo-instrument with a flexible thermally insulated refrigerant supply pipe (hydraulic line), electromagnetic valves, a valve control unit, a sensor and a refrigerant pressure regulator, characterized in that the cryosurgical apparatus additionally contains a high-pressure cylinder with helium, while the refrigerant pressure regulator according to it is switched off by its outlet to the vapor cavity of the tank with liquid nitrogen through a two-way solenoid valve with a drainage outlet into the atmosphere, and through its entrance to the high-pressure cylinder with helium, a mechanical non-return valve for liquid nitrogen is installed at the inlet of the heat-insulated refrigerant supply pipe, while the refrigerant supply pipe and the refrigerant discharge pipe from the cryotool is connected in parallel with the removable cryotool to an additional closed gas circulation loop consisting in series of a heat exchanger with an electric heater, a non-return valve and a compressor pump connected by its inlet to the refrigerant pipe with a drain solenoid valve on it and through an additional solenoid valve and an additional gearbox to the same helium cylinder.