RU2162682C1 - Device for high-frequency artificial pulmonary ventilation - Google Patents

Abstract

FIELD: medical practice for intensive therapy, in anesthesiology and renewal of life. SUBSTANCE: device has a series-connected compressed gas feed unit, solenoid-operated valve and a unit for tie-in with the patient provided with an injector with an injection orifice. The injector is provided with a cover plate and insert with replaceable injection tubes of different diameters. The injection orifice can be overlapped by displacement of the cover plate. Connected to the insert is a hose accommodating a heater and a separate oxygen line. EFFECT: operative variation of percentage content of oxygen in the inhaled mixture. 2 dwg

Description

 The invention relates to medical equipment, namely to devices for high-frequency ventilation of the lungs, intended for intensive care, anesthesiology and intensive care. To date, devices for high-frequency ventilation of the lungs have been widely used. Among them, an artificial lung ventilation apparatus containing two electromagnetic valves (main and additional), a driver unit and a pneumatic-mechanical unit, a device for high-frequency artificial ventilation of the lungs containing a source of compressed gas, a reducer, a control unit, a shaper valve and a high-frequency electromagnetic valve, device for artificial ventilation of the lungs in experimental conditions, containing a supercharger of air with an electric signal output, a breathing tube, an electromagnetic valve n, a control unit consisting of n-channel ring counter, n-matching elements, program elements set (n-tumblers), n-combining elements, the output matching element.

 A common disadvantage of all the described devices is that they have injectors of an unimproved design, which does not allow to quickly change the composition of the respiratory mixture.

 Also, little attention is paid to the issue of the safety of the procedure.

 Closest to this invention in technical essence is a device for artificial ventilation of the lungs, comprising a compressed gas supply unit, an interrupter consisting of an electromagnet and an opening valve, a control unit and an injector (USSR N 1463297).

 The invention solves the problem of creating a device for the rapid change in the percentage of oxygen-air mixture, which is very important when providing emergency care, because This indicator is individual for each patient, as well as ensuring the safety of the procedure.

In FIG. 1 is a schematic diagram of a device for high-frequency artificial lung ventilation;
in FIG. 2 - injector (output of the patient interface unit).

 A device for high-frequency artificial ventilation of the lungs contains a compressed gas supply unit 1, which, for example, consists of an inlet pressure gauge, an adjustable pressure reducer, a working pressure gauge, a humidifier-medication heat exchanger connected to the pneumatic inlet of the electromagnetic valve 2 (containing winding 3), functioning which is provided by the control unit 4. The pneumatic output of valve 2 is connected to the patient interface unit 5, which consists of a heated hose 10, an injector, and an intubation no tube.

 The output of the patient interface unit 5 is shown in FIG. 2 and is an injector. The injector consists of a housing 7 with an injection hole 12; pads 6, the movement of which along the diameter D2 of the housing 7 in the direction A leads to the overlap of the injection hole 12; liner 8, which contains the injection tube 13 of different diameters (D3). The insert 8 is screwed into the housing 7 on the left side, and a heated hose 10 is connected to it with the nut 9 on the right side, inside of which there is a heater 11 and a separate oxygen line 14.

The device operates as follows: compressed oxygen (gas) enters block 1, and from its output it enters through the pneumatics of an electromagnetic valve controlled by block 4 to the patient interface 5, where heated, moistened oxygen of the required pressure enters an injector through a separate insulated line , through the injection opening of which air is sucked in from the atmosphere, the volume of which reduces the oxygen concentration in the inhaled mixture (FiO ₂ ) to 50-60%. Within these limits, FiO ₂ can be adjusted by changing the size of the injection hole by rotating the lining 6 along the diameter D2 of the housing 7 in the direction A (this change is shown by dashed lines in FIG. 2), as well as replacing the inserts 8 with injection tubes of different diameters (D3). During inhalation of the patient, the valve 3 is open and gas (oxygen) enters through the separate hose of the heated hose into the injection tube 13, which causes air to suck from the atmosphere through the injection hole 12, and then the gas mixture through the hole D1 in the housing 7 enters the endotracheal tube, and from it to the patient’s lungs. During exhalation, valve 3 is closed and the patient exhales gas through the same injection hole 12.

 Unlike the known devices in the invention, the change in the oxygen concentration in the inhaled mixture is carried out promptly, which is very important in urgent, urgent cases, since this indicator is selected individually for each particular case to achieve the greatest positive effect.

 In practice (1 case per year for 300 devices), it turned out that oxygen flashes are possible in a heated hose, leading to very undesirable consequences.

 This disadvantage in this device is eliminated by the creation in a heated hose 10 of a separate line for supplying oxygen 14 (silicone tube). Therefore, the heater 11 does not directly heat the gas (oxygen), but the walls of the silicone tube, thereby ensuring the safety of the procedure.

Claims (1)

 A device for high-frequency artificial ventilation of the lungs, comprising a compressed gas supply unit, a solenoid valve and a patient interface unit connected in series, equipped with an injector with an injection hole, characterized in that the injector comprises a hot-swappable insert with injection tubes of different diameters and a patch, the injection hole is made overlapped by moving the lining, and a hose is attached to the liner, inside of which there is a heater and a separate oxygen master al.

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