SU995782A2 - Hypothermal device - Google Patents

Description

(54) HYPOTHERMAL DEVICE

t.; -.-.

 The invention relates to medical technology, in particular to apparatus for producing hypothermia in a pressure chamber. .In the main. St. No. 446015, a hypothermic device is known for conducting hypothermia at normal ambient atmospheric pressure, containing a cooled vortex tube equipped with fins, an air distributor along the outer parts of the body part to be cooled, and a receptacle of air with a seal.

However, such a device does not provide the constancy of the regime of gvpothermii in the pressure chamber when the pressure in it changes. With increasing pressure, the pressure in the pressure chamber decreases ohg

air lining in the pipe. The effect of cooling the air in a vortex tube depends on the degree of its expansion, which is determined by the ratio of the air pressure at the inlet to the pipe to the air pressure around the pipe. When

 In the air pressure in the pressure chamber, the degree of expansion of the air in the vortex tube tends to unity, and the effect of cooling to zero.

The purpose of the invention is to ensure reliable operation when using the device in the pressure chamber.

The goal is achieved by the fact that the hypothmic device according to the author, St. No. 446015 is additionally equipped with a vortex tube with fins at its inlet. for the refrigerant — with the compressor Vvodok — the outlet for the refrigerant — with the inlet of the bases of the vortex tube, and through the control valve — with the coolant distributor. 399B FIG. 1 shows a diagram of the proposed hypothermic device; in fig. 2 - the schedule of the device. The device consists of a main vortex tube 1 equipped with ribs 2, a heat carrier distributor 3 along the load-bearing covers of the body part to be cooled, a heat carrier exhaust receiver 4 and a control valve 5. All these elements are installed in the pressure chamber 6, and outside

an additional vortex tube 7 with ribs 8 and a heat exchanger 9. Inlet 10 is an additional 1 turbulent vortex tube 7 through pipe 11 through pipe 12 connected to the pressure chamber volume 6. The volume of the pressure chamber 6 through pipelines 12 l 13 through a stop valve 14 is connected to the atmosphere. The cold end 15 of the additional vortex tube 7 is connected to the inlet for the coolant. a heat exchanger 9, the outlet for the coolant of which is connected by pipe 16 to the intercostal space of the additional vortex tube 7. The inlet for the refrigerant of the additional heat exchanger 9 is connected to the compressor station 17, on which the valve 18 is installed, and the outlet for chaladagency is connected to the inlet 19 of the vortex pipe 1 and valve 5 .

The device works in the following way.

Compressed air with. when the shut-off valve 18 is open at the compressor inlet 17 enters the heat exchanger 9, where it is cooled and then supplied to the inlet 19 of the vortex tube 1 located in the pressure chamber 6. A cold stream of air from this tube through the distributor 3 is distributed by evenly distributed jets into the cooled surface of the patient. After contact with the cooled surface, air enters the receiver 4 in the spent heat carrier, and from there into the intercostal space of the vortex tube 1. In contact with the surface of the fins 2 and the body of the vortex tube 1, the spent cold flow cools the tube body and enters the pressure chamber 6, where used for the intended purpose. for ventilation of the pressure chamber.

Exhaust ventilation air from the pressure chamber is not released into the atmosphere through conduit 13 with valve 14: through conduit 12 when Vept 11 is open, it is directed to inlet 1O

the pressure chamber rises and approaches the pressure that the compressor develops, not only the effect of cooling the air in the pipes, e 1, but also the flow of air through it decreases. In this case, the specified air cooling effect provides an additional vortex tube with a heat exchanger installed outside the pressure chamber, and the constancy of air flow through the air distributor 4 along the outer covers of the body part to be cooled provides. is opening the control valve 5.

The performance of the proposed thermal device can be illustrated using the graph shown in FIG. 2, where (curve 1) shows the dependence of the effect of air cooling in a known hypothermic device when operating in a pressure chamber under conditions of varying pressure in it. The same figure (curve 2) shows the dependence of the cooling effect of compressed air entering the pressure chamber in an additional heat exchanger c. using an additional vortex tube.

Experimental confirmation of curve 1 was obtained by testing a known hypothermic device in a pressure chamber with varying pressure in it, and confirmation of curve 2 was obtained by testing a cooled vortex tube interlocked with a heat exchanger at normal ambient atmospheric pressure, with varying pressure of compressed air, at the entrance to the vortex tube. Air flow through the heat exchanger is kept constant. Summing the ordinates of curves 1– and 2, we obtain a curve 3, which characterizes the effect of air cooling in the proposed hypothermic device.

Thus, the use of the proposed device provides an additional vortex tube 7. The air cooled in the tube 7 is directed through the cold end 15 to an additional heat exchanger 9, in which the air entering the inlet 19 of the tube is cooled. From the heat exchanger 9, the air enters through the pipeline 16 into the petrol bureaux space of the cooled vortex tube 7, and then is discharged into the atmosphere.

stability of operation under conditions of varying pressure in the pressure chamber. Additional energy and capital costs are not required for the operation of the hypothermic device, since the patient is cooled & amply in the pressure chambers by ventilation air, and for the jpa6oTbi vortex tube located outside the pressure chamber, the air discharged into the atmosphere is used. Conducting hypothermia in the pressure chamber (a combination of hypothermia and hyperbaric oxygenation) is an effective means of preventing and controlling the hypoxia of vital organs and, above all, of the brain. The known hypothermic device is used to conduct craniocerebral: hypothermia at normal atmospheric pressure {ambient pressure, In contrast, the proposed hypothermic device is; ensures the constancy of the hypothermia mode under the conditions of varying pressure in the pressure chamber.

Claims (1)

1. USSR author's certificate No. 446015, cl. A 61 F 7 / OO. (prototype.)