SU1001927A1 - Cryosurgical apparatus - Google Patents

Description

The image refers to medical technology and is intended for use in gynecology, practice, otolaryngology, dentistry, and dermatology. A cryosurgical mountain cryocoagule is known, consisting of a controlling and png device, an operating instrument equipped with conductors for cooling, information and heat transfer, a temperature probe and an electric heater. The tip of the tool is made in the form of a freezing nozzle with an electric heater. Temperature control and heating of the tip in the cryocoagulator is carried out using an electric heater built into the freezing nozzle. A disadvantage of the known device is the use of a liquid refrigerant for heating to the blender, which leads to uneconomic costs of the latter. Lime cryosurgical apparatus containing heat-insulated container, handpiece, channels for the supply and removal of refrigerant, intake tube, electric heater, cooling jacket and solenoid valves 2j. Temperature control and warming of the probe tip is carried out by mixing the coil-heated gas into the cooled gas using solenoid valves. A disadvantage of the known device is that it does not economically consume refrigerant, since a heated liquid refrigerant is used to heat the tip. The purpose of the invention is to provide a reduction in the refrigerant flow rate by warming the tip with hlaoagen pairs. The goal is achieved by the fact that in the device containing a heat-insulated capacity for refrigerant, a tip, channels for supplying and discharging refrigerant, a fence tube and an electric heater, the upper portion of the intake tube is perforated, with a gap outside

a coarse elemong made of porous material is installed, and the electric heater is mounted in the gap between the tubular element and the perforated portion of the intake tube.

The drawing shows a cryosurgical apparatus.

Ashtarat includes a housing 1, a heat-insulated tank 2 for a liquid refrigerant, an electric heater 3, a valve 4, a stopper 5, a tip 6, a channel 7 of the flow hlazgeng. electric button 8, tubular element 9 made of porous materials :, intake pipe 10 of refrigerant channel 7, channel 11 for refrigerant removal, electromotor 12, current leads 13, section 14 of intake pipe 1O, perforated in the upper part.

The device works as follows.

After the tank 2 is filled with liquid refrigerant, valve 4 is closed. Under the action of external heat sources in the tank 2, part of the liquid refrigerant evaporates, and the pressure rises. Since the resistance of the hydraulic valve on the porous material is more than 200 mm of water. Art. (vessel height), the liquid refrigerant rises through the intake tube 1O, fills through the perforated section 14 the porous material of the hydraulic valve 9 and enters the refrigerant supply channel 7 to the tip 6, from where the refrigerant outlet 11 is discharged to the atmosphere at the bottom apparatus.

When the electric heater 3 is turned on, the refrigerant boils up sharply (when boiling up 1 cm of liquid nitrogen, 500 cm of steam is produced), a gas tube is created in the tube 10 and supply channel f. At the next moment of time, the refrigerant in the porous tubular material 9 boils. This lasts for 3-5 seconds after which the pressure in the vessel 2 from the external heat influx n from the heat pulse,

received from the operation of the electric heater, continues to grow and at the time of opening the hydraulic valve (release of porous material from the refrigerant)

refrigerant vapor from the vessel is fed through the electric heater and the supply channel to the tip. Warming up the tip takes 30-50 seconds from -12 ° to 0 ° C.

Thus, the power of the electric heater is spent mainly on heating the coolant vapor, which is much more efficient than heating the liquid coolant. In this case, in the proposed design, it is possible to easily and easily change the electric heater that was worn out.

The scope of application of such an apparatus is greatly expanded, i.e.

perform cryosurgical operations using various medical methods: for example, the combined effect of cold and heat on human organs and tissues in order to obtain a deeper necrosis, or a therapeutic effect.

Claims (2)

1. Patent of Germany N 26130OO, cl. A 61 B 17/36, 1978. 2 .. Patent of Great Britain No. 1443064, cl. A 61 B 17/36, 1979 (prototype).