SU1055502A1 - Apparatus for cryoaction on tissue - Google Patents

Abstract

1. A DEVICE FOR A CRYO OF TISSUE EXPOSURE, containing a cylindrical heat-insulated container for refrigerant, a handle, a tip, channels for supplying and discharging a refrigerant, a filling and suction pipe, a safety valve and a heater, characterized in that, with a shortening circuit, ipiKa and heating time, and refrigerant saving, the device is equipped with a position valve, zatanovlennym on the channel for supplying the refrigerant, the heater is mounted in a heat exchanger mounted on the upper end of the refrigerant tank, with the atom entering The heat exchanger is connected to a two-way valve, and the outlet is connected to a channel for supplying a refrigerant. 2. The device according to claim 1, annually, with the fact that the heat exchanger is made in the form of a chamber with vertically arranged septum, forming labyrinth channels for the refrigerant, and the heater is installed perpendicularly to the partitions the entire length of the camera.

Description

Invention ot6sith: to medical technology, namely to devices for cryoeffect on tissue. A device for cryosurgery on a fabric is known, which contains a tepopisoprovanny capacity for - refrigerant, a tip, channels for supplying and discharging refrigerant, a filling tube, a safety valve and a heater. C The disadvantages of this device are 1 with a long time of defrosting the tip from the frozen tissue, as well as an increased refrigerant consumption. It is also known a device for cryosurgery on a fabric, comprising a cylindrical heat-insulated coolant tank, a handle, a tip, channels for supplying and discharging a coagent, a filling and suction pipe, a safety valve and a heater G 2}. The disadvantages of the known device are high refrigerant consumption, due to the fact that part of the refrigerant is used to cool the preheated tip during thawing and refrigerant loss when charging the container for it, as well as the duration of the tip warm-up time. The purpose of the invention is to reduce the time to heat the tip and save the refrigerant. This goal is achieved by the fact that the device for cryosurgery on a fabric containing a cylindrical heat-insulated container for refrigerant, a handle, a tip, a channel for supplying and discharging refrigerant, a filling and suction pipe, a safety valve and a heater are equipped with a positioning crane installed on the channel for supplying refrigerant, the heater is mounted in a heat exchanger mounted on the upper end of the coolant tank, while the heat exchanger is connected to the air-tight valve, and the outlet is connected to the channel the water coolant in the area between the valve positional and tip. At the same time, the solid ennik is made in the form of a chamber with vertically positioned partitions forming labyrinth channels for the refrigerant, and the non-heater is installed perpendicular to the partitions along the entire length of the chamber. FIG. 1 9 shows a device for cryosurgery on the fabric, generally known: in FIG. 2 is a diagram of the movement of the refrigerant during operation of the device. The device for cryosurgery on the fabric contains a cylindrical coolant tank 1 with a handle 2, equipped with thermal insulation 3, a heating element including a heat sink, made in the form of a chamber 4 with heating elements 5 located inside the chamber 4 along its entire length perpendicular to the partitions 6 forming labyrinth channels for the refrigerant. Chamber 4 is mounted on the upper end of the tank 1 for the refrigerant. The intake tube 7 is connected via the position valve 8 to the channel 9 for supplying the refrigerant coming into the tip 1O, made in the form of a cantilever tube in which the sleeve 11 is mounted for connection with a removable tip 12. The device is additionally equipped with a tube 13, a channel 14 for the refrigerant drain , while the latter is connected to the atmosphere through a tube 1 5. The inlet of the chamber 4 is connected via the tube 16 with the position valve 8, and the outlet with the tube 17 to the channel 9 for supplying the refrigerant. The device also contains a filler tube 18 and a safety valve 19 mounted on the tube 18. On the handle 2, a knot-switch 2O and a detachable plug 21 with an electric cable 22 are mounted. The sleeve 11 and interchangeable tips 12 are made of fluoroplastic, which increases the safety of work with the device. The device works as follows. From outside of the inflow part of the liquid nitrogen is gasified to create lime pressure in the tank 1. Through the intake cabin 7, the refrigerant enters the craneshaft 8, is directed through the channel for supplying the refrigerant to the tube 13, slips into the nozzle 10, and then via Khaal 14 for refrigerant outlet and tube 15 is vented to the atmosphere. After the necessary extraction has been carried out, the handle of the positioning crane 8 is turned on, and the ladagent through the intake tube 7 and the tube 16 enters the chamber 4, in which it moves along the labyrinth compartments, quickly heats up and, out of it,. Cabin 17 enters channel 9 to cool the refrigerant, and then through channel 4, the refrigerant drain and tube 5 is released into the atmosphere. The invention makes it possible to double the heating time of the end cap and also to reduce the consumption of refrigerant.

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Claims (2)

1. DEVICE FOR CRIO · INFLUENCE ON TISSUE containing a cylindrical heat-insulated capacitance. bone for the refrigerant, handle, tip, channels for supplying and discharging the refrigerant, filling and suction tubes, safety valve and heater, characterized in that, in order to reduce the heating time of the nozzle and save refrigerant, the device is equipped with a position valve / installed · »On the channel for supplying refrigerant, the heater is mounted in a heat exchanger mounted on the upper end of the tank for refrigerant, while the inlet of the heat exchanger is connected to the on-off valve, and the output to the channel for supplying refrigerant. 2. The device according to π. 1, the main point is that the heat exchanger is made in the form of a chamber with vertically arranged partitions forming labyrinth channels for the refrigerant, and the heater is installed perpendicular to the partitions along the entire length of the chamber. ABOUT S (L with f 1055502 2