SU1174009A1 - Cryosurgical device - Google Patents

Abstract

1. CRYOSURGICAL DEVICE, containing a reservoir for liquid refrigerant, a probe with a working tip, connected to a reservoir, pipelines for supplying a liquid refrigerant and for discharging a gas-liquid mixture, an additional pipeline connected to the ejector, characterized in that, in order to increase refrigeration through refrigerant loss reduction, it is provided with an overpressure source located outside the tank and connected to the inlet end of the additional pipeline, the outlet end of the pipeline for removing the gas-liquid mixture from the probe is located in the upper part of the tank in the gas phase zone, and a conduit for supplying coolant is formed with a hydraulic gate. 2. A device according to claim 1, characterized in that, in order to increase safety during operation of the device, an opening is made in the upper part of the tank. (L 4 CO

Description

The invention relates to medical technology and can be used in cryosurgical operations.

The purpose of the invention is to increase the cooling capacity by reducing refrigerant loss and improving safety during operation of the device.

W black% depicts the proposed cryosurgical device.

A1, G; .

  ) the Codep kit is thermally insulated, 1 with liquid refrigerant, probe Й With Yak6nechnik 3, pipeline 4 d; yagodto 3 skrnbagenta having hydraulic shutter 5. Pipeline 4 serves to supply refrigerant from tank 1 to ejector 6. Inlet end of additional pipeline 7 is connected to the source of excess pressure, for example, a rubber bulb 8 with a check valve 9, and an outlet end with an ejector 6. Pipeline 10 serves to divert the gas-liquid mixture from tip 3 to the upper part of tank 1 to the gaseous phase zone. The tank 1 communicates with the atmosphere through the hole 1 1.

The device works as follows.

Liquid coolant is poured into the tank 1 through the hole 1 1 to the level of the upper end of the pipeline 10. The tool is ready for operation. By means of the pear 8, atmospheric air is pumped through the additional pipeline 7. The excess pressure created in the additional pipeline 7 is triggered on the ejector 6, as a result of which the velocity of the air reaches a considerable value. It is greatest in the minimum cross section of the ejector 6, into which liquid refrigerant is sucked in through pipe 4, the amount of which depends on the pressure created by an external source of overpressure. The refrigerant is captured by the air flow, accelerated along the length of the ejector 6 and sprayed on the inner side of the surface of the tip 3, cools it and flows through the pipe 10 into the upper part of the tank 1. The liquid refrigerant separates from the gas and flows into the tank 1, and the gas through the hole 1 1 goes to the atmosphere. The hydraulic lock 5 serves to ensure that at the moment when the gas supply to the additional pipeline 7 is stopped, the refrigerant suction through pipeline 4 immediately stops.

Claims (2)

1. CRYOSURGICAL DEVICE, comprising a reservoir for liquid refrigerant, a probe with a working tip connected to the reservoir, pipelines for supplying liquid refrigerant and for discharging a gas-liquid mixture, an additional pipeline connected to the ejector, characterized in that, in order to improve cooling capacity by reducing loss of refrigerant, it is equipped with an overpressure source located outside the tank and connected to the inlet end of the additional pipeline, the outlet end of the pipeline for removal a gas-liquid mixture from the probe is located in the upper part of the tank in the gas phase zone, and a conduit for supplying coolant is formed with a hydraulic gate. 2. The device according to π. I, characterized in that, in order to increase safety during operation of the device, an opening is made in the upper part of the tank. SU ,,, 1174009