SU1683705A1 - Cryosurgical tool - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for local cryotherapy, and can be used in cryotherapy and cosmetology. The purpose of the invention is to expand the field of application of a cryosurgical instrument. The cryosurgical instrument includes a housing 1, a cryoagent tank with vacuum thermal insulation 2. a tip 14, a tube 3 for supplying a cryoagent, an overpressure source 11 placed on the lid 8 of the housing 1, a nozzle 5 mounted on the working end of the housing 1. The nozzle 5 is made with an additional tank 4 for a cryoagent connected to the tip 14 and placed in the lower part of the nozzle 5, the tube 3 for supplying the cryoagent to the additional tank. 1 il.

Description

The invention relates to medical equipment, in particular to devices for local cryotherapy, and can be used in cryotherapy and cosmetology.

The purpose of the invention is the expansion of the scope of the cryosurgical instrument. C.

The drawing shows the design of a cryosurgical instrument.

The cryosurgical instrument contains a casing 1, a container 2 for a cryoagent with vacuum thermal insulation, a tube 3 supplying a cryoagent, one end of which is immersed in a liquid cryoagent located in a container 2, the other is brought into an additional container'4 for a cryoagent located in the lower part of the nozzle 5 and organized by two parts 6 and 7 of nozzle 5, a cover 8 on which a valve 9 is installed, a safety valve 10 (made, for example, of rubber from a balloon) and an overpressure source - a rubber bulb 11 with a collective valve 12, time 13. At the bottom surface of the nozzle piece 7 5 contains, for example, using a threaded connection tip 14 which may have a different configuration. The container 2 for the cryoagent with vacuum thermal insulation is hermetically connected to the upper part of the housing 1 due to preloading during rotation of the support 13. The cover 8 is hermetically connected to the housing 1. The nozzle 5 is connected to the support 13 due to a threaded connection. The nozzle 5 is made of two parts 6 and 7 in order to ensure the technological possibility of forming an additional capacity 4. The cover 8, valve 9, parts 6 and 7 of the nozzle 5 are made of low-heat-conducting material (for example, fluoroplastic) to reduce heat inflows from the environment. The hole 15 serves to control the filling of the additional tank 4 with a liquid cryoagent, channel 16 (the gap between the walls of the hole 17 and tube 3), the cavity 18 and the hole 19 are used to collect and discharge into the environment the cryoagent vapor.

Cryosurgical instrument works as follows.

The cover 8 is screwed from the housing 1 and the liquid cryoagent is poured into the container 2. With the valve 9 open, screw the cover 8 onto the housing 1, ensuring the tightness of the connection. The liquid cryoagent under the action of excess pressure in the cavity between the inner surface of the lid 8 and the surface of the cryoagent created by the pear 11 after closing the valve 9, is transferred through the tube 3 to an additional container

4. The first portion of the cryoagent is spent on cooling the tip 14 and surrounding the additional capacity of 4 walls. Vapors of the cryoagent formed during its boiling are discharged into the environment partially through hole 15 (since hole 15 has a small bore, its diameter is 1 mm) and mainly through channel 16, cavity 18 and hole 19, and this the tube 3, located in the cavity 18, is cooled by passing cold pairs of the cryoagent, thereby achieving a decrease in heat inflows to the cryoagent moving in the tube Z during pumping. After cooling the tip 14 and the walls of the additional container 4 and filling the latter with liquid cryoagent (as judged by the appearance of liquid cryoagent from the hole 16), the overpressure is stopped, valve 9 is opened. The cryosurgical instrument is ready to work.

If necessary, continue cryotherapy when the cryoagent is completely boiled in the additional tank 4, the valve 9 is closed and with the help of a pear 11, the required amount of liquid cryoagent is pumped into the additional tank 4, after which the valve 9 is opened again.

After the cryotherapy is stopped, the cryosurgical instrument is mounted on a stand in an upright position with valve 9 open until the next cryotherapy is necessary (taking the next patient, conducting repeated cryotherapy to the same patient, etc.).

The application of the proposed cryosurgical instrument will expand the scope of its application by providing the possibility of application cryotherapy on easily accessible tissues and organs.

Claims (1)

Claim A cryosurgical instrument comprising a housing, a cryoagent container with vacuum thermal insulation, a tip, a tube for supplying a cryoagent, an overpressure source placed on the housing cover, a nozzle mounted on the working end of the housing, characterized in that, in order to expand the scope of cryosurgical instrument, the nozzle is made with an additional capacity for the cryoagent connected to the tip and placed in the lower part of the nozzle, the tube for supplying the cryoagent to the additional e capacity