CZ4497U1 - Insufflation system, particularly for devices intended for high-frequency ventilation of lungs - Google Patents

Description

Insuflation system especially for devices for high-frequency lung ventilation

Technical field

The technical solution relates to an insufflation system especially for devices for high-frequency lung ventilation, equipped with a condensate trap, humidifier, collecting vessel, interconnecting piping and multi-jet generator.

BACKGROUND OF THE INVENTION

It is known that, in general, artificial lung ventilation devices as well as high-frequency lung ventilation devices, as well as devices derived therefrom, are devices with high demands on patient safety. For long-term artificial ventilation of the lungs, for example, during complicated surgical procedures, etc., when the patient's nose is removed by induction, it is necessary to replace its function by moistening and heating the ventilation mixture so that the instrument parameters are as close as possible to physiological needs of the patient. Otherwise, mucous membranes dry out in the patient's internal respiratory tree due to insufficient heating and humidification. These lose their purifying function, thickening and accumulation of mucus, the lumen of the airways decreases. These complications can be eliminated by moistening and heating the respiratory mixture. According to the above conditions, the respiratory mixture is most often formed by an injector-type device for high-frequency lung ventilation devices. For this reason, the devices are equipped with a humidifier, a condensate trap, a collecting vessel, an interconnecting line, a lavage valve, a multi-jet generator. It is known to provide a breathing circuit of a high-frequency lung ventilation device with an inhalation composition by an injector method. The injector is a multidose generator and is inserted into the patient in an established endotracheal source. In this way, dead space is minimized. The inhalation and exhalation branches of the breathing circuit of the device are connected via the Y connection on the input side of the multidose generator. The mixture flowing through the inspiratory branch is humidified by a conventional humidifier and maintained at a slight positive pressure. The mixture leaving the exhalation branch before being discharged into the surrounding area is cleaned of unwanted aerosol and vapors. The pulse-working injector creates an inhaling mixture in the form of an inhaling volume from the inspiratory branch. In such an arrangement, different injector suction sizes due to varying patient airway resistance do not affect the amount of warming and humidification of the resulting respiratory composition because both the injector-propellant component and the suction component have their humidifiers. Extending the breathing circuit hoses allows the humidifiers to be placed in the center of gravity of the device. The heated and humidified breathing mixture in the breathing circuit cools down after the path up to the multi-jet generator and excess moisture is trapped in the exhalation branch by gravity into the dedicated containers. This phenomenon is a major problem in the pressurized branch of the breathing mixture delivered to the injector of the multi-jet generator. Manufacturers of this technique solve this problem in particular by the fact that this branch, also known as the insufflation system, is heated by electrical resistance. However, such a solution has a number of disadvantages. In particular, such a constructed insufflation system exhibits relatively high thermal inertia and its relatively large internal volume distorts the dynamically adjusted

-1GB 4497 U1 Parameters for High Frequency Lung Ventilation Device.

The essence of the technical solution

These disadvantages are largely eliminated by the insufflation system, particularly for high-frequency lung ventilation devices, equipped with a condensate trap, humidifier, collecting vessel, connecting line and multi-jet generator, which is based on the fact that the pressurized humidifier is connected to the tangential condensate the central outlet of which is connected via a duct and a lavage valve to a multi-nozzle generator, the condensate trap being connected to the collecting vessel via the outlet with a resistor. Such an insufficient system optimizes the moisture content by trapping the droplets of excess moisture due to cooling of the pressurized branch in a condensate trap and from there to a collection vessel.

Overview of the drawings

The technical solution of the insufflation system especially for devices for high-frequency lung ventilation will be explained in the attached drawing, where in Fig. 1 schematically the connection of the insufflation system is shown.

Example of technical solution

The insuflation system shown in FIG. 1, consisting of a pressurized humidifier 4, is connected via an insufflation line 6 to a tangential diffuser 10 provided in its upper part with a condensate trap 2. Further, in the upper part of the condensate trap 2, a central diffuser 11 is connected via a conduit 7 and a lavage valve 2 to a multi-jet generator 11. The lower part of the condensate collector 2 is provided with a diffuser 9 at the distal end of which a resistor 12 is provided and the diffuser 9 is connected to a waste container 5 via a drain line 8.

The function of the insufflation system according to the invention is as follows. The intermittent breathing mixture from the pressurized humidifier 4 introduced through the insufflation line 6 and the tangential diffuser 10 connected to the condensate trap 2 cools and excess moisture in the form of liquid collects at the bottom of the condensate trap 2 from where it continuously flows through the outlet 2 provided with resistor 12 and drain 8 to the collection vessel 5. While the breathing mixture continues to intermittently flow from the condensate trap 2 through the central outlet 11 through the duct 7 and the lavage valve 2 to the multi-jet generator 1.

Industrial applicability

In particular, an inhalation system for high-frequency lung ventilation devices can be used with high-frequency lung ventilation devices, or wherever a humidified and heated respiratory mixture is conveyed under pressure, eg in an artificial lung ventilation device.

Claims (1)

Insuflation system especially for high-frequency lung ventilation devices having a condensate trap, a humidifier, a collecting vessel, a connecting line, a multi-nozzle generator, characterized in that the overpressure humidifier (4) is connected by an insufflation line (6) to the tangential outlet (10) of the trap (3). a condensate trap (3) connected via a duct (7) and a lavage valve (2) to a multi-nozzle generator (1), the condensate trap (3) being connected via a drain (9) provided with a resistor (12) via a drain line (8) with a collection container (5).