SU858824A1 - Liquid respiration apparatus - Google Patents

Description

(54) APPARATUS OF LIQUID RESPIRATION

Claims (4)

The invention relates to devices for carrying out artificial respiration, in particular to apparatus of the liquid type. A liquid-breathing apparatus is known, which contains a continuous metering pump with a drive, distribution devices, inhalation and exhalation lines, an oxygenator, including a moving twist body. The control cavity of which is connected to one distribution device and operating with an oxygen metering device and another distribution device. a container for working fluid and a carbon dioxide regenerator installed on the expiratory line, a source of oxygen and a discharge valve connected to the inspiratory line p.}. With this device, the metered supply of the working fluid into the lungs is performed directly by the gear pump, whose volumetric flow rate may depend on the viscosity of the respiratory fluid, which has a certain effect on the change in the minute respiration volume. The purpose of the invention is to increase the range of gas exchange control during liquid respiration in the lungs by using a working fluid with different viscosities. This goal is achieved by the fact that a liquid breathing apparatus containing a dosing pump of continuous action with a drive, distribution devices, inhalation and exhalation lines, an oxygenator that includes a housing with a movable cover, the control cavity of which is connected to one distribution device, and the working one with an oxygen metering device and other switchgears, a reservoir for the working fluid and a carbon dioxide regenerator installed on the exhalation line, a source of oxygen and a discharge valve connected to the line Inhalation is provided with an additional tank to place the control fluid into it and a pulsating pump installed on the expiration line. In this case, the inlet is connected to an additional tank through a metering pump. In addition, the pulsating pump body can be made with a movable base and three bellows, with two bellows mounted coaxially and attached to the body and the movable base, their internal cavities are interconnected through a non-return valve, and the third bellows engages one of the two bellows. cavities. The cross-sectional area of the drive cavity of the pump and the control cavity of the hydroxy genator is 4: 1-3: 1. A variable choke is installed on the inspiratory line, which is connected to the waste valve. I The drawing shows a schematic diagram of the apparatus. The liquid breathing apparatus contains a continuous metering dosing pump 1 with drive 2, distribution devices 3-5, inhalation and exhalation lines 6 and 7, oxygenator 8 including housing 9 with movable cover 10, control cavity 11 of which is connected to distribution device 3 , and working 12 - with oxygen metering device 13 and distributor device 5, tank 14 for working fluid and carbon dioxide regenerator 15 installed on expiratory line 7, oxygen source 16 and discharge valve 17 connected to inspiration line 6, reservoir 18 for control liquid pump, pulsating action pump 19 installed on expiratory line 7. Pulsating pump 19 can be made with a movable base 20, bellows 21-23, while the bellows 21, 22 are mounted coaxially and attached to the body and the movable base 20, and their internal cavities are interconnected through the check valve 24i; the bellows 23 covers the bellows 2, forming a drive cavity 25. A variable throttle 26 is installed on the inhale line b connected to the relief valve 17. The device works as follows. At the initial moment of connecting the apparatus to the lungs, they are filled with a volume of working fluid equal to 1.5-2.5 liters, depending on the volume of the lungs. To do this, turn on the actuator 2 and set the number of revolutions for pump 1 on it, and at the same time turn on the electromagnet of the distribution device 3. The control fluid at this time is pumped from pump 18 from tank 18 and the moving base 20 enters the drive cavity 25, P9D. moves upward, the check valve 24 closes, the sylpholite 22 expands and through the three-way valve the working fluid from the tank 14 enters the internal cavity of the background 22, and the working fluid located at the same time in the inner cavity of the bellows 21 is injected thrown into the working cavity 12 of the oxygenator 8. Under the action of pressure, the oxygenator 8 arising in the working cavity 12, the movable cover 10 moves upwards, and the control fluid, which is located in the control cavity 11, returns to the reservoir through the three-way valve 18 for control fluid, and oxygen from dispenser 13 enters cavity 12, where it dissolves into. working fluid. As soon as the volume of the cavity 12 becomes appropriate up to j3e counted on the pump 1, the electromagnet of the switchgear 3 switches the flow of control fluid from the drive cavity 25 to the control cavity 11, and the control fluid contained in the drive cavity 25 returns to the tank 18 due to spring, located in the housing of the pulsating pump, valve 24 of the pulsating pump 19 opens and transfers the working fluid from the bellows cavity 22 to the bellows cavity 21. At this time, the distributor 4 closes the inlet in the oxygenator, and the switchgear 5 opens the outlet from the oxygenator to the inspiratory line. At the same time, a vacuum is created in the cavity around the oxygen dispenser 13, due to which the dispenser cavity is filled with oxygen. Then the cycle repeats. After filling the lungs, the apparatus removes the rhythmic breathing with the collection of fluid from the lungs through the exhalation line 7. The implementation of the apparatus of the proposed design allows the range of regulation of gas exchange in the lungs to be expanded during liquid respiration by using a working fluid of different viscosity and different dissolving capacity of oxygen and carbon dioxide. Claims 1. A fluid breathing apparatus comprising a continuous metering pump with a drive, distribution devices, inhalation and exhalation lines, an oxygenator including a housing with a movable cover, the control cavity of which is connected to one distribution device, and the working oxygen dispenser with another a distribution device, a reservoir for the working fluid and a carbon dioxide regenerator installed on the exhalation line, a source of oxygen and a discharge valve connected to the inspiratory line, differing schiys in that, in order to increase the range of adjustment with liquid breathing gas exchange in the lungs by the use of working fluids with different viscosities, an additional tank unit provided with the control; fluid and ustanovlonn (lm on line vschoha pump pulsing action. at the same time, its entrance is connected with an additional tank through a dosing pump, 2. The apparatus according to claim 1, characterized in that the pulsating pump comprises a housing with a movable base and three bellows, with two power-phones mounted coaxially, attached to the housing and the movable base, their internal cavities communicate with each other through a check valve, and the third bellows covers one me two bellows, with the formation of the drive cavity. 3. The apparatus according to claim 1, wherein the cross-sectional area of the drive cavity of the pulsating pump and the control cavity of the oxygenator is 4: 1-3: 1. 4. The apparatus of claim 1, wherein the inspiration line connected to the relief valve has a variable choke. Information sources, 0 taken into account in the "examination 1. USSR author's certificate W 662095, cl. A 61 H 31/00, 02.01.78.