SU1329781A2 - Apparatus for local hypothermia of hollow organs - Google Patents

Abstract

This invention relates to medical technology. Ile.ib of the invention ensured the accuracy of maintaining a given mode of inothermia. The device contains a tank-1 exchanger 1 with a level gauge 2 and a radiator. 3, cold regatta 4. The tank communicates with the atm () C 1) through the tube, 5, a plastic tube is put on KOTopbiii, clamped 7 of the electromagnet 8. Level gauge 2 is equipped with a level sensor 9. The lower side of the nggune) of the 1C exchanger () is reversed with a 1m pump 10. (The circulation system is equipped with a buckle 17 with a clip 18. One output of the source 27 of the thread is connected. , those 28 modes of operation, which, in i. i, are connected to the inputs of b, 1, 29 peiiep- Sirovain through , 1K) chate.n 30 pcBej ca and si.ieKTpoMai iniTOM 8 through tumbler 31. Ustro11S1 in obesnechivaeg with automatic. And living beyond the ner (}) level is in the theory. juvenile. 1 and 1. | (L CO of go with 00 fsj

Description

The invention relates to a copper technique, in particular, to devices for local gidnotermii of new organs, for example, the upper part of the lower common 1- () tract, podzh. n domnaya zhe.tezy, nrenmun11no nrolongirovannoy.

The purpose and; ") of the breach 5L is if it is to reduce the accuracy of the nodder / kani of a given mode.

What is shown is the functional block diagram of the device.

The device consists of a tank-gene.yuber exchanger 1 with a level gauge 2 and an internal heat exchanger 3 cold storage tank 4. The storage tank 1 communicates with the atmosphere through the filler fitting 5, an elastic tube is attached to the KOTopbiii (clamped with electric clamp 7 8).

The level | 1 2 is equipped with a sensor y) () vn - a float 9 made of a yenrozrachrach-NO1CH) materiala. The lower side of the heat exchanger I is connected to a reversible pump I), for example, the roller (s) 1m, 6ai (—yenyG bypass KOTopoi o is equipped with a non-repetitive two-sided ct.anane 11, and then through a tee with a temperature sensor 12 with a footed pathway 13 two-one about 1 probe, at the end of Korojioro fixed:; 1astik- Hbiii balloon 14.

The outer lumen 15 of the two-luminous () 1 of the probe is connected to the lower fitting of the non-channel rotameter I), which seals the part of the system subject to onosto-Itenik from air or a liquid by suction (in the direction of the stre.11ki.) from ba.plona 14 to ten. exchanger 1.

(dktema chi l li is equipped with a dash t) ub1) th 17 with a clip 18. (l) side level) 2 on the i.e. sliding carriage 19 mounted on the rod 20. assembled; 1eny diodes 21 and light bulb 22 so that there is a float between them 9. Besides goy. The proposed device is contained in 11e) B1) 1st unit Z.3, BTopoii b.uizh 24, third unit 25 and fourth unit 2 () switching. Playdiode 21 is connected with chiravl to the) input of the nerve switching unit 23.

One output of the source 27 is not connected by a switch. 28) in time) {) you, KOTopbiii is connected to the inputs of the unit 29 reversed through the connecting switch 3 (1 reverse n with the electromagnet 8 through the switch 31. F5 In position II, the operation mode switch 28 is connected via a Bbii i close-up switch (| co-tact 32 and the first switch-off koptakg 33 first b.yuka 23 communeiiai to the inputs of block 29) eversary, via Biopoii locking concact 34 s e.I ktromagni 1 ohm 8. and through the third closing kongakg 35 non-vyvogo btoka 23 commutation, para.l. I connect)) with the first 1 sub 1 1 Kayun 1 M contact 36 ivropoio of the switch unit 24 to the H1 of the rivers, a switch 28

The control input of the second switching unit 24 and the time relay 37 are connected to the second output of the power supply 27. In parallel to the time relay 37, a nerve closure contact 38 of the fourth switching block 26 is connected, and a control input is e.e. 37 time through the second closing contact 39 of the second switching block 24 connected by a mode switch 28

, slave) to which through the third closing contact 40 BTOpoi o b: 1ka 24 of switching and parallelly connected second opening of the contact 41 Hepaoi o switching unit 23 and the first closing contact 42 of the third switching unit 25 of the third switching unit 25. To the operation mode switch 28 via the alarm shutdown button 43, the second closing contact 44 of the third switching unit 25 and parallel to the fourth connecting contact 45 of the first switching block 23 of the switching and the second closing contact 46 of the fourth block 21) switching connected control input chegvergogo block 26 of switching.

5 B. Yuk 47 signaling is connected via the third closing contact 48 of the fourth switching block 26 to the nerek, lux) reader 28 operating mode1) 1.

It works with the following processing mode (pa, tad mode), when the switch. 28 was in position 1, the lumbar switch 151 turned on 8, I.e. release clamp 7, and through

1) the bottom 6 of the system is secured with a perfusate up to the top of the risks of the level gage 2. while latching 17 and close the clamp 18. The air from the system 1 and 1 enters the atmosphere through the tube 6. With the help of a recurrent current 29 include pump d.ch emptying the cylinder

0 14 from the fluid and air (in the direction of the arrow.) To a night suction for the convenience of manipulating the balloon of two luminescent probes and entering to the node, keeping cool of the body and body, for example, the stomach. .

After inserting elastically about a ballonlone 14 with a two-lumen probe () 1 in 11l. () Body of a human, using a reversing unit 29, switch the pump to the infusion of the superfusate (in the direction of arrow B) for

0 filling the cylinder 14 with a specified amount of nerfusate determined by the risks of the level gauge 2. After this toggle switch 31, the electrical circuit 8 is turned off, holding the clamp 7, 1 (rometizi) that indicates the perfusion system, and the continuous (5) tie is started with the preservation of the continuity of the jet.

5k, lyuchak) T cold unit 4 and setting device

(not shown) working from sensor 12

temperatures, set the temperature of the perfusate, which must be maintained during hypothermic perfusion.

Then, one stop of the carriage 19, you - press the photodiode 21 with a light bulb 22 at the level of the non-float 9 so that the float does not have a beam of the light bulb 22, and tighten the stop. Switch 28 is set to position II "Automatic mode and automatic monitoring of the level of the perfusate in the heat exchanger, i.e. by changing the volume of the nerfusate in the cylinder 14 of the closed circulation system of the nerfusate.

In the event that the breakdown of the suction part of the system occurs (the outer lumen 15 — rota.meter 16 — heat exchanger 1 — pump 10) and the air node air from the atmosphere disrupts the continuity of the circulating jet, the supply of the nerfusate to the balloon 14 begins to outreach it - the fuzate falls and the float 9 opens the way for the beam of the bulb 22 to the photodiode 21, as a result, the voltage goes to the control signal of the first switching unit 23. When the voltage through the first closing contact 32 enters the PA block 29 reversing. the motor windings of the pump 10 are not switched off and the perfusate and air are pumped out of the cylinder 14 in the direction of the arrow A. Through the second closing contact 34, the voltage goes to the electromagnet 8. unplugs the tube 7 and depressurizes the circulation system and releases the suction pump air.

At the same time, via the third locking switch) Pin 35 of the first switching unit 23 connected in parallel with the first closing contact 36 of the second switching unit 24, the voltage is applied to the control current of the second switching unit 24 and the time relay 37. Through the second closing contact 39 of the second switching unit 24, the voltage of the voltage across the control input of the relay 37 is timed. and the countdown begins.

After suctioning out the lugs of the perfusate PP of the balloon 14 (the heat exchanger 1 and the beam 22 of the light bulb 22 are blocked on the photodiode 21, the control input of the first switching unit 23 is de-energized. When the second closing contact 34 of the first switching unit 23 switches off the electromagnet 8, the clamp 7 presses the tube 6 and the circulating system becomes airtight again, through the .1, / disconnecting contact 33, the voltage enters the input of the reversing unit 29, the windings of the pump 10 electric motor are switched and the perfusate 14 is restarted in the direction of The arrow B. circulation nerfuzata reduced while maintaining continuity of its flow.

At this time, the voltage is supplied through the third closing contact 40 of the second switching unit 24 and the second disconnecting) P1I11 KoirraKT 41 nepBoi o switching unit 23. blocked by the worm contact 42 of the third switching unit 25, on

the control input of the third switching unit 25.

If the set time delay is expired and the perfusion solution in the cylinder 14 detects that the photodiode 21 is triggered, which is suitable for the normal course of hypothermia, then the voltage through the alarm off button 43, the closing contact 44 of the third switching unit 25, are connected in parallel closing contact 45

5 of the first co-switching unit 23 and the second closing contact 46 of the fourth switching unit 26 is fed to the control input quarter-unit switching unit 26 and the alarm unit 47 is triggered through the closing contact 48 of this switching unit. The closing contact 38 of the fourth switching unit 26 blocks the time relay 37, and the open; 1, the alarm unit 47 can only be activated by pressing the alarm off button 43.

5 When the unit 47 alarms. Hypothermia needs to be interrupted and the device checked. At the same time, the tracking system for the skimming of the perfusate in the cylinder 14 continues to work in the same way. as with only m in the target time interval of the photodiode actuation 21.

1; c. 1 and the time reference of the time relay 37 is completed, and the photodiode 21 is not reacted again. A time relay 37 breaks the electronic power flow of the second switching unit 24 and the third switching unit 25, i.e. The tracking system returns to the initial state of the automatic operation mode.

35

After the end of hypothermia, 28 modes of operation are switched to the I position. The master mode, the toggle switch 31 turns on the electromagnet 8 (the tube 6 is expanded) and using the reversing unit 29

switch the windings of the motor of the pump 10 for suction from the cylinder 14 of the nerfusate in the direction of the arrow A.

The perfusate is aspirated to the top of the risks of the level gauge 2. The cylinder 14 with a two-lumen probe is extracted from the patient's cooled cavity, and the power supply is disconnected.

If necessary, change or drain the perfusate, remove clip 18 from tube 17.

Application of the device d, n local gi1I) of the term Ho. The organs of organs provide the specified mode of heat exchange at many hours of hypothermia by automatically () 1 () s.chezheni after level in heat. Convenient

1329781.

5o

Claims (1)

The invention is a time relay whose output is connected to the input of the fourth switching unit, and Device for local hypothermic output of the first switching unit of the union of sexual organs according to ed. St. No. 728858, otli-ny with the reverse switch, block that, in order to provide a precise reversal and an electromagnet, the output to maintain a given hypo mode, the fourth switching unit is connected to It contains a level sensor, a co-block of the alarm, the source One connected to the first switching unit, the power supply is connected to a switch whose reverse outlets are connected to the second, a tre-sa, toggle switch, switching units through Tyy.m, the fourth switching unit and switch operation mode.