SU432903A1 - - Google Patents

Description

The invention relates to medica technique and is used to compensate and treat oxygen deficiency of the body with oxygen and oxygen-oxygen breathing mixtures.

A breathing apparatus is known, comprising a breathing bag with a pulmonary automatic device, a system washing device, a regenerative cartridge, a valve box and a mask. However, due to the absence in the apparatus of a device for creating and regulating breathing mixtures, breathing only with pure oxygen is provided and the possibility of using other gases and mixtures is excluded. Due to the design of the washing device of the system in the form of a manual valve, a stable composition of the breathing mixture is not provided.

In addition, the OTC: The device or the indication of carbon dioxide does not preclude its accumulation during the processing of the absorber in the regenerative cartridge.

The aim of the invention is the possibility of creating various breathing mixtures and maintaining their gas composition constant with feeding the patient to wet mixtures through a closed and semi-closed breathing circuit and preventing the accumulation of carbon dioxide.

For this, the apparatus is equipped with a metering device consisting of a nozzle device and a pressure-balancing mechanism, a pneumatic switch made in the form of a three-way valve, a carbon dioxide indicator is installed on the inspiration line, and a reversible humidifier

located between the valve and the mask. The device for flushing the system is made of a pneumatic time relay containing a pneumatically connected pulse generator with

variable throttle and a spring-loaded diaphragm with a rigid center and a kitsamatichaski ratchet with a cam connected to it. The actuator includes a reversing valve and a rocker gear, kinematically coupled to each other and to a ratchet cam. The drawing shows a schematic diagram of the breathing apparatus. The device contains a breathing bag I connected to gas pipelines with a lung machine, 2 equipped with a valve 3, a dilution valve 4 and a pressure valve 5, a regenerative cartridge 6 forming a valve box 7 inhalation valve 7 and an exhalation valve 8 and a mask 9. expiration by a three-way valve II and breathing mixture dispenser installed on the oxygen supply line 12 and the helium supply line 13. The dispenser consists of a nozzle device 14 and a pressure balancing mechanism. The last sokkit regulator 15 of constant pressure pressure, installed on the oxygen supply line 12 and includes a sealed enclosure 16, divided by a membrane 17 into a submembrane cavity A and a superselected cavity B, an inlet nozzle 18, an output nozzle 19, a feedback nozzle 20 As well as a spring-loaded non-return valve 21 located inside the housing 16, a rigid valve with a diaphragm 17 and post |; 1 with an adjusting spring interacting with a set screw 23. The equalizing pressure also contains a regulator 24 zero overpressure installed on the gel supply line 13 and comprising a sealed body 25 divided by a cable 26 into a supramembrane cavity C connected through a union 27 oratnaya communication with a pressure gauge 2B and a cavity A of the regulator 16 of a constant overpressure, and a vacuum cavity D connected to the nozzle device 14. The zero pressure gauge regulator 24 also includes a spring-loaded normally open valve i9, an auxiliary spring 80 and a mouth mounted inside the housing 25; first fittings on the housing 25 are: 31 and outlet nozzle 32 In addition, the breathing apparatus is equipped with a device installed in 14 dnoupchi sour (n) two lines for automatic flushing of the system, made of a pneumatic time relay and an actuator. The time relay contains a gas-connected gearbox 33, a pneumatic switch 34, a pulse generator 35, the membranes of which form chambers a, b, c, d, a variable choke 36, capacity 87 and a spring-loaded membrane 38, the hard center 39 of which interacts kinematically with the push rod 40 and the pawl 41 with a ratchet 42, a spring 43 and a cam 44. The actuating mechanism consists of an axle transfer 45 kinematically interacting with the cam 44 and a reversing valve 46 installed in the oxygen supply line 12. In addition, the apparatus is provided with an oxygen supply bypass 47 installed between the reversing valve 46 and the breathing bag I, and a breathing mixture bypass 48 installed between the reversing valve 46 and the constant overpressure regulator 15. The breathing apparatus is equipped with a carbon dioxide indicator 49 installed on the inspiratory line 50 and containing a transparent body 51 with a chemical reagent 52 placed inside it, and a reversible humidifier 53 installed in front of the mask 9 and containing a hermetic body 54 and a helix 55 placed inside it from corrugated aluminum foil . The device works as follows. Through lines 12 and 13, oxygen and helium are supplied respectively. Establish the required concentration of the oxygen-helium mixture using a nozzle device 14, mjwcha or other pairs of nozzles. Include bypass 48, and oxygen from line 1 ;. through the reversing valve 4B enters through the inlet fitting 18 into the regulator 15 of constant overpressure. Helium on line-13 enters through the inlet fitting 31 in reg: street 24, zero excess pressure and receives a normally open spring-loaded valve 29 inside, the membrane 26 is not displaced and the atomizing spring VO is not compressed. The rebound screw AI, compressing the spring 22, moves the diaphragm 17 down and opens the spring-loaded valve 21. The oxygen enters the cavity A of the regulator 15 and then through the outlet 19 of the housing 16 of the regulator 15 into the nozzle device 14 and simultaneously into the pressure gauge 28 and through feedback choke 27 into the cavity C of the regulator 24 of zero overpressure. The pressure of oxygen moves the membrane 26 and opens the valve 29. Helium enters the cavity D and through the outlet nozzle 32 of the housing 25 of the regulator 24 into the nozzle device 14, the oxygen pressure l gels will always be equal, and their value will be adjusted using the adjusting screw 23 and is controlled by the pressure gauge 28. Thus, in the case of a decrease in the oxygen pressure in cavity A, the pressure also decreases in cavity C acting on the membrane 26. The latter rises upwards, reducing the flow area of the valve 29 until the pressure of the gels acting in the cavity D on the membrane 26, the oxygen pressure in cavity C will not balance. In the case of an increase in the oxygen pressure, the pressure of the gels automatically increases by the same amount. When the supply of oxygen is stopped, the supply of gels is automatically stopped. The cavity B of the regulator 15 is always connected to the atmosphere via the feedback chopper 20. The oxygen-helium mixture formed in the nozzle assembly through the regenerative cartridge 6 enters the breathing bag I and fills it, and the excess mixture through the inhalation line 50, inhalation valve 7 and the mask 9 is emitted into the atmosphere. The respiratory system is filled with the mixture, while valve II switches to the position connecting the exhalation line 10 to the atmosphere. The mask 9 is sealed to the patient's airway. Crane II is transferred to the working position in which the line 10 exhales, and is connected through the regenerative cartridge 6 to the breathing bag I. Bypass 48 closes the oxygen supply to the regulator 15. At the same time, the supply of gels, i.e. the flow of breathing gas from the nozzle device 14 into the respiratory system of the device. The treatment session begins. The patient inhales the mixture through a mask, a reversing humidifier 54, an inspiratory valve, an inspiratory line 50 from nepidka I exhales through a reversing humidifier 54, an expiratory valve 8, a tap II of the 10 expiratory and a regenerative cartridge 6 into the bag I. During the breathing process, oxygen is absorbed and secretion carbon dioxide. The latter is removed from the system in the regenerative cartridge 6, and its operation is monitored by means of a carbon dioxide indicator 49. When inhaling, a part of the mixture passes through the transparent housing 51 of the indicator 49 and interacts with the chemical reagent 52, which changes color when in contact with carbon dioxide, for example, indicator absorption lime. A change in color indicates that the regenerative cartridge 6 is exhausted and passes carbon dioxide, i.e. It needs to be replaced with an absorption iavest. The oxygen consumed during breathing is automatically replenished as follows. As it is consumed, the breathing bag I is lowered, opening the valve 3 of the pulmonary machine 2. At the same time, oxygen FROM line 12 through the reversing valve, pan 46 and valve 3 enters the respiratory pole I until its amount compensates for the amount consumed during breathing. The bag I is filled and the lung machine 2 closes the valve 3. Thus, the concentration of oxygen during the treatment session will remain unchanged. If necessary, an emergency supply of pure oxygen includes a bypass 47, and oxygen from the revresive valve 46 enters, mine machine 2 with valve 3, directly into the bag I and to the patient. In an emergency, when the volume of the mixture in bag I was reduced, and valve 3 did not stop, valve 4 was opened, and the patient could inhale the air. When the bag I overflows, the pressure valve 5 is activated, and exhalation is carried out into the atmosphere. The valve 5 also serves to communicate the bag | a I with the atmosphere in the event of the latter being emptied and without oxygen supply. In this case, the bag I with its wall opens the valve forcibly. The described breathing process is carried out in a closed loop. 4 FOR By iiujivofKjJbiTOMj the breathing circuit, tap II closes and coalesces the exhalation line 10 with the atmosphere. In doing so, inhale ocyuiecT from bag I, which is filled with oxygen, and exhalation into the atmosphere. During breathing, according to any KOHTJ, the mixture is moistened in a reversible humidifier 59. The moisture in the exhaled gas condenses on the surface of the B5 spiral placed in the hermetic casing 54, and during inhalation it moistens the breathable mixture. Since during operation of the apparatus, leaks are possible, which after a certain time will lead to a decrease in helium concentration and an increase in the concentration of nitrogen entering with oxygen from an external source, the apparatus will periodically flush the system of the initial oxygen-helium mixture set by means of a junction device 14. This happens automatically as follows. At the beginning of the treatment session, the pneumatic switch 34 is turned on, and oxygen through a reducer 83 under a small pressure enters the chamber a of the pulse generator 3b. Next, oxygen enters through variable choke 36 into tank 37 and chamber c. Simultaneously with this, oxygen is supplied to the spring-loaded membrane of a non-charger, which moves to the right under the action of pressure. At the same time, the hard center 39 of the membrane 38 uses the pusher 40 and the pawl 41 to move the ratchet 42 to one tooth, which is fixed in the new position with the spindle of the aspen 43. The six with the ratchet will rotate the cam 44 to the same angle. When you reach 37 and the camera The generator 3b of a given value of the membrane pressure of the latter due to the difference of its effective areas moves upwards, closing the supply of oxygen to chamber a and opening the release of pressure from it and the spring-loaded membrane 3b through chamber r to the atomic sphere. Simultaneously through the priest (jhiiuli throttle 36, the pressure of the throttle 36 drops in the tank 37 and the chamber in the heater, - 11 HeiiUTOpa BL. 11 the supporter; dinner the membrane 38 moves to the left, the front panel 40 3 and the dog 40. 41 it remains stationary due to the fixing effect of the spring 43. After the pressure in the chamber in generator 35, the membrane of the latter moves down, blocking the exit from chamber g to the atmosphere and opening the oxygen supply to chamber A. The cycle repeats many timeswith the atmosphere.) After a certain number of cycles, the ratchet 4 and cam 43 are rotated so that the latter interacts with the rocker gear 45, which moves the reversing valve 46 to the right, oxygen from line 12 enters the constant overpressure regulator 15. Automatically turns on supply of gels and oxygen to the nozzle device 14. The breathing mixture formed in it enters bag I and is etched through valve 5 into the atmosphere. A flushing of the apparatus system is carried out. At the same time, it is filled with the initially prescribed respiratory oxygen-helium mixture. The duration of the flushing is determined by the interaction time of the cam 44 with the rocker gear 45, i.e. the profile of the cam 44 and the pulse frequency of the generator 35. At the end of the flushing, the reversing valve 46 is moved to the left - the supply of oxygen and gels to the nozzle device is stopped14. The time between flushes is controlled by alternating throttles 36, which change the frequency of the generator 35 pulses. At the end of the treatment session, the pneumatic switch 34 turns off, lines 12 and 13 from; Switched off respectively from oxygen sources and gels, mask 9 is disconnected from the patient's respiratory tract. If necessary, replacement of the absorption lime in the regenerative cartridge 6 and indicator absorption lime in the carbon dioxide indicator 49 is made. Thus, it is possible to create different breathing mixes and to maintain their gas composition constant while feeding the wet mix to the patient through a closed or half-open breathing circuit, and the accumulation of carbon dioxide is eliminated.

DISCLOSURE OF INVENTION

A breathing apparatus containing a breathing bag with a pulmonary machine, a device for flushing the system, a regenerative cartridge, a valve box and a mask, characterized in that, in order to create different breathing mixes and keep their gas composition constant and supply the moisturized mixtures to the patient by the closed and the half-open contour of breathing and preventing the accumulation of carbon dioxide, it is equipped with a dispenser consisting of a nozzle device and a pressure-balancing mechanism, a pneumatic switch, carbon dioxide indicator installed on the inspiratory line and a reversible humidifier located between the valve and the mask, and the system flushing device is made of a pneumatic time relay containing a pneumatically connected pulse generator with variable throttle and a spring-loaded memran with a rigid center and a cinematic connected to it a ratchet with a cam, and an actuator comprising a reversing valve and a rocker gear, kinematically coupled to each other and with a ratchet cam.