SU1026795A1 - Cryogenic instrument - Google Patents

Abstract

CRYO TOOL, containing a cylindrical heat-insulated body with a heat exchanger placed in it, a throttle device, Vr t ii: eJ oi ;;,., V K a "" m "M i" f} .- A, k in bulk for supplying and discharging refrigerant and A hollow tip, characterized in that, in order to improve the efficiency of KpHOBOSj, it has maintained a stable temperature and a terminus and increased usability, it is equipped with a nozzle, made of heat insulating material in the form of a cup, which covers the tip, with guides rigidly connected to the nozzle, sealing rings mounted on the housing for axial movement and connected to the guide by means of hinges, wherein the axial movement of the ring equal to the length of the tip and the distance between the guides is equal to the diameter of the housing.

Description

The invention relates to medical technology, in particular, to devices in which the cooling of the working part of a cryotool is achieved by applying the Joule-Thomson effect, and can be used to perform cryotherapy in gynecology, dentistry and other fields of medicine.

A cryosurgical device using the Joule-Thomson effect and operating in an open-circuited process is known, which contains a regenerative heat exchanger with a throttle device, a refrigerant tank and a device for controlling and adjusting cryosurvection parameters 1.

However, this device is characterized by a limited continuous operation time due to insufficient gas in the tank.

A cryo-tool is known that contains a heat-insulated casing-i with a heat exchanger placed in it, a throttle device, channels for supplying and discharging refrigerant and a hollow tip

Cryoinstrument works as follows. In the preparatory mode, the refrigerant compressed in the compressor of the cryomedical installation enters through the supply hose to the heat exchanger, is cooled backflow, throttled in the throttle device and washes the inner surface of the tip in a liquefied form, cooling it to the required temperature.

In the operating mode during cryo-exposure, the refrigerant takes heat from the biological tissue and, by evaporation, returns through the discharge hose to the compressor.

After crying, the duration of which is determined by the accumulated amount of liquid refrigerant, the extractor is again in the preparatory mode required to accumulate the next portion of liquid refrigerant in the cavity of the tip. Due to the closed cooling cycle, this device does not need to be periodically refilled with refrigerant, which ensures its virtually unlimited service life.

However, the known device is characterized by insufficient cooling capacity of the cryoextractor due to the loss of heat energy to compensate for heat inflows from the environment through the surface of the non-insulated tip, which is expressed in the length of the preparatory period for the tip cooling time (25 minutes to reach -52 ° C) and in the tip temperature during the cryo-effect and, as a result of this, the required cryo-exposure time is lengthened, the zone is frozen and, since at a higher tip temperature, a longer period of time is required for the destruction of biological tissue.

Ultimately, all this leads to an increase in the duration of the preparatory period, during which accumulation in the tip cavity of the liquid refrigerant takes place, which is necessary to cool the tip and destroy biological tissue. At the same time, the duration of the working period during which the surgeon can perform the destruction is reduced, since it is necessary to periodically cool the instrument to accumulate a certain amount of fluid in the tip, i.e. the efficiency of such a cryotool is relatively low.

The aim of the invention is to increase the efficiency of cryo-effects by maintaining a stable tip temperature and improving usability.

This goal is achieved by the fact that a cryotool containing a cylindrical heat-insulated body with a heat exchanger placed in it, a throttle device, channels for supplying and discharging refrigerant and a hollow tip is equipped with a nozzle made of heat-insulating material in the form of a glass covering the tip, rigidly connected to the nozzle, a ring mounted on the housing with the possibility of axial movement and connected to the guides by means of hinges; The displacement of the ring is equal to the length of the tip, and the distance between the guides is equal to the diameter of the body.

The drawing shows a crimp tool for a closed-loop cryomedical installation, a general view and a section AA.

The cryoinstrument is part of a closed-cycle cryomedical installation and is connected to the compressor of the installation with flexible supply pipes 1 and a unit of the installation with flexible supply pipes 1 and outlet 2 hoses. The cryoinstrument contains successively placed in a cylindrical vacuum case 3 a recuperative heat exchanger 4 with a throttle device 5, a channel 6 for supplying a refrigerant to a cooled tip 7 to which the heater 8 and the temperature sensor 9 are attached. A heat insulating nozzle 10 with guide rails 11 closes the tip 7 and, by means of a hinge 12, connects to a ring 13 covering the body 3 of the cryotool. The ring 13 with the nozzle 10 can be moved in the axial direction with the stroke length required to expose the tip 7, which is determined by the length of the protruding part of the tip 7 and is limited by the stops 14 and 15; fixed stationary on the body 3 of the cryotool. The distance between the guides 11 is equal to the diameter of the body 3 of the cryotool, and the length is equal to the distance from the axis of the hinge 12 to the end of the body.

Cryoinstrument works as follows.

In the preparatory period, the refrigerant compressed in the compressor, through the supply hose 1, enters the heat exchanger 4, is cooled down by reverse flow, is throttled in the throttle device of the liquid bills through the channel 6 for supplying the refrigerant enters the cavity of the tip 7, cools it and evaporates, returns to compressor through channel 16 for refrigerant drainage. In this case, the nozzle 10 closes the napple 7, isolating it from the heat fluxes from the environment. When the required temperature at the tip is reached, the nozzle 10 is moved in the axial direction from the tip 7 to the stop, opening the tip 7, and turns on

90 °, fixing perpendicular to the body of the cryotool. In the drawing, the new position of the nozzle is shown by dashed lines. The surgeon, now using the nozzle as a handle and setting it in the required position, produces cryogenic stimulation, heating if necessary. After completion of work, the nozzle is moved to a horizontal position and fixed on the tip. A cryo-tool with a thermal insulating nozzle allows more than 2 times to reduce the tip cooling time during the preparatory period (from 30 to 15 minutes) and 2.5 times longer working time (from 20 to 50 minutes). Thus, the efficiency of the proposed cryoinstrument is increased 3 times in comparison with the known constructions. Savings from the use of the invention is 2300 r. per year for one installation.

Claims (1)

CRYOINSTRUMENT, comprising a cylindrical heat-insulated casing with a heat exchanger, throttle device, channels for supplying and discharging refrigerant and a hollow tip, characterized in that, in order to increase cryogenic efficiency by maintaining a stable tip temperature and improving usability, it is equipped with a nozzle, made of heat-insulating material in the form of a glass covering the tip, guides rigidly connected to the nozzle, a ring mounted on orpuse axially displaceable and connected to the guide by means of hinges, wherein the axial movement of the ring equal to the length of the tip, and the distance between the rails is equal to the diameter of the housing.