EA039832B1 - Module of aerosol generation for inhalation device - Google Patents

Abstract

The invention relates to the field of medicine, namely to the design of an aerosol generation module for an inhalation device. The aerosol generation module for an inhalation device includes a housing containing a compartment for cartridge loading; an assembly with a mesh membrane; an aerosol generation mechanism configured to actuate the mesh membrane; a device to open the cartridge, including a hollow needle; and a nozzle for aerosol supply from the mesh membrane to the housing outlet. According to the invention, the housing includes a tank connected to the assembly with mesh membrane and configured to accommodate liquid coming from the cartridge, and an air supply channel to the aerosol supply nozzle; at the same time, the opening device includes an additional hollow needle. The aerosol generation module for an inhalation device may include an inhalation valve located in the air supply channel. The cartridge loading compartment may be configured movable relative to the housing towards the opening device. The housing may include a removable part with an air supply channel. The housing may include an exhalation valve located in the path of the exhaled air flow. The technical result of the claimed invention is expressed in an increase in the efficiency of an inhalation device.

Description

The technical solution relates to the field of medicine, namely to the design of the aerosol generation module of the device for inhalation.

A technical solution is known from the prior art, which is a nebulizer, including a housing in which a mesh assembly with a mesh is placed, which is vibrated by a piezoelectric element to create small sprays or an aerosol, configured to install a chamber with a liquid medicine in it. The supply of liquid from the chamber to the vibrating grid is carried out by actuating the plunger mechanism associated with the dispenser. RF patent for the invention No. 2550668, IPC A61M 15/00, published on May 10, 2015.

A technical solution is known, chosen as the closest analogue, which is an inhalation apparatus with a vibrating mesh, having a body and a disposable capsule, which is a chamber for placing a drug and forms a separate element that can be removed from the body. The device also includes a punch in the form of a hollow tube with a cutting edge, through which the liquid from the capsule being pierced is fed to the vibrating mesh. RF patent No. 2708821, IPC A61M 11/00, published on 12/11/2019.

Distinctive features of the proposed solution are the implementation of the housing with a reservoir connected to the node with a mesh membrane and made with the possibility of placing in it the liquid coming from the cartridge, and with an air supply channel to the aerosol supply nozzle, the presence of an additional hollow needle.

The disadvantages of the known technical solutions are the incomplete extraction of liquid from the chamber or cartridge: in such devices, part of the drug may remain inside the cartridge, since a zone of discharge is created in it. If the drug is delivered unevenly to the aerosol generation mechanism with a mesh membrane unit, the aerosol is generated in uneven portions, which reduces the effectiveness of the inhalation procedure itself and does not ensure the required dose of the drug enters the patient's lungs. In addition, the stability of the inhalation procedure here depends on constant manipulations by the patient or doctor: it is necessary to control the position of the inhaler, to apply pressure on the cartridge to expel liquid from it.

The technical result of the proposed technical solution is manifested in an increase in the efficiency of the inhalation device.

The efficiency of the inhalation device is achieved, in particular, due to the stable process of generating an aerosol, extracting the maximum amount of liquid from the cartridge.

The technical result is achieved by the fact that in the aerosol generation module of the inhalation device, which includes a housing containing a compartment for loading the cartridge, an assembly with a mesh membrane, an aerosol generation mechanism configured to actuate the mesh membrane, an opening device for opening the cartridge, including a hollow needle, aerosol supply nozzle from the mesh membrane to the housing outlet, the housing includes a reservoir connected to the mesh membrane unit and configured to accommodate liquid coming from the cartridge, and an air supply channel to the aerosol supply nozzle, while the opening device includes an additional hollow needle. The aerosol generation module of the inhalation device may include an inhalation valve located in the air supply channel. The cartridge loading compartment may be movable relative to the body towards the opening device. The housing may include a removable part with an air supply channel. The housing may include an exhalation valve located in the path of the exhaled air flow.

An additional cannula in the opening device allows a continuous supply of air into the cartridge as liquid is removed from it. At the same time, the extraction of the liquid also occurs continuously and stably, due to the equalization of the pressure inside the cartridge by the air entering the cartridge. This advantage contributes to the stable operation of the aerosol generation module of the inhalation device and the complete extraction of a given dose of liquid medicine.

The air supply channel to the aerosol supply nozzle provides air flow from the outside of the device to the aerosol generating area at the mesh membrane and to the outlet for subsequent inhalation by the patient of a dose of the drug aerosol. Preferably, the conduit includes an inhalation valve in the inhalation air flow path and/or an exhalation valve in the exhalation air flow path. The flow of exhaled air can be organized in the air supply channel or through an additional hole in the body. The presence of inhalation and exhalation valves prevents uncontrolled movement of air in the device.

The aerosol generation module of the inhalation device includes a compartment for loading a liquid drug cartridge into it. This avoids the need to pour the liquid directly into the reservoir, which can lead to the use of an incomplete dose of the drug. In addition, some drugs should not be exposed to the external environment before they enter the respiratory tract. Preferably, the compartment is movable relative to the body in the direction of the opening device, which ensures accurate positioning of the opening needles in the corresponding sections of the cartridge, eliminates the risk of premature opening of the cartridge if it is incorrectly positioned in the compartment.

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The reservoir for accommodating the liquid coming from the cartridge is configured to be connected to the mesh membrane assembly, which makes it possible to control the supply of liquid to the mesh membrane. This ensures a uniform flow of the liquid to be sprayed onto the mesh membrane, and also eliminates the possibility of leakage of liquid from the cartridge into other parts of the device that are not intended for this.

The aerosol generation mechanism, made with the possibility of actuating the mesh membrane, ensures the transformation of the liquid drug into fine particles, which are fully delivered to the necessary sections of the patient's respiratory tract. The aerosol generation mechanism can be made in the form of a piezoelectric element, an electromechanical drive, etc.

The claimed technical solution is further explained with the help of figures, which conditionally represent one of the possible versions of the aerosol generation module of the inhalation device.

In FIG. 1 shows a general view of the aerosol generation module of the inhalation device in the assembled state.

In FIG. 2 is a sectional view of the aerosol generation module of the inhalation device with the cartridge loaded and opened.

In FIG. 1, 2 shows a module (1) for generating an aerosol of an inhalation device, including a housing containing a compartment (2) for loading a cartridge (3), an assembly (4) with a mesh membrane, hollow needles (5) and (6), a nozzle (7) aerosol supply from the mesh membrane to the housing outlet, reservoir (8), air supply channel (9) to the aerosol supply nozzle (7).

Next, with reference to the drawings, the design of the aerosol generation module (1) of the inhalation device is described.

The aerosol generation module (1) includes a housing containing a compartment (2) for loading into it a cartridge (3) with a liquid medicine to be converted into an aerosol.

The housing includes a reservoir (8) to contain the liquid coming from the cartridge (3) after it has been opened with a needle (6).

The reservoir (8) is made with the possibility of connection with the node (4) with a mesh membrane.

The aerosol generation module (1) includes an aerosol generation mechanism configured to actuate the mesh membrane.

The aerosol generation module (1) includes an aerosol supply nozzle (7) from the mesh membrane to the housing outlet and an air supply channel (9) to the aerosol supply nozzle (7). Preferably, an inhalation valve, such as, for example, a reed valve, is provided in the air supply channel (9). The housing can also be provided with an exhalation valve located along the path of the exhaled air flow. The flow of exhaled air can be carried out through the air supply channel (9) or through another opening in the housing. The exhalation valve can also be made in the form of a petal valve.

The aerosol generation module (1) also includes an opening device for opening the cartridge, including a hollow needle (6) for supplying the liquid to be sprayed to the mesh membrane and a hollow needle (5) for supplying air into the cavity of the cartridge (3).

The housing may include a removable part with an air inlet.

In a preferred embodiment, the compartment (2) for loading the cartridge (3) is movable relative to the housing in the direction of the opening device, for example, by means of a movable element that moves in the corresponding groove made on the housing. The body may also include a cover to close the compartment (2).

One of the preferred options for using the claimed module (1) for generating an aerosol of an inhalation device is shown below with an example.

In the compartment (2) for loading the cartridge of the ready-to-use aerosol generation module (1), a cartridge (3) with a liquid drug to be converted into an aerosol is inserted. For example, for the claimed module (1), sealed cartridges (3) with needle penetration sites with self-tightening elements can be used.

The cartridge (3) is then opened by the opening device, preferably by moving the compartment (2) relative to the body towards the opening device. In this case, the needles (5) and (6) pierce the cartridge cover.

After opening the cartridge (3) through a hollow needle (6), the liquid drug begins to flow into the tank (8) and to the assembly (4) with a mesh membrane, where, under the action of the aerosol generation mechanism, the liquid drug passes into the form of fine droplets and, mixing with when the patient inhales, the air entering through the air supply channel (9) exits the nozzle (7) and enters the patient's respiratory tract, for example, through a mouthpiece or mask. Preferably, when inhaling, the air to be mixed with the drug can enter only through the inhalation valve, and when exhaling, the air already saturated with carbon dioxide can only exit through the exhalation valve.

This process is accompanied by air supply, for example, through the channel (9) for air supply

- 2 039832 or an additional channel and an opening in the housing connected to a cannula (5) into the cavity of the cartridge (3). At the same time, due to pressure equalization inside the cartridge (3), a continuous flow of liquid into the reservoir (8) occurs for subsequent generation into an aerosol until it is completely removed from the cartridge (3) and / or in accordance with the prescribed dose.

The presented figures, description of the design and use do not exhaust the possible options for execution and do not limit in any way the scope of the claimed technical solution. Other variants of execution and use within the scope of the claimed formula are possible. Depending on the purpose, the aerosol generation module of the inhalation device can be manufactured in different sizes, colors and configurations.

The claimed design of the aerosol generation module can be used in various inhalation devices for the introduction of drugs into the human body in the form of an aerosol. The proposed aerosol generation module ensures complete extraction of the drug from the cartridge and stable generation of an aerosol form from a liquid drug.

Claims (5)

1. An aerosol generation module of an inhalation device, including a housing containing a compartment for loading a cartridge, an assembly with a mesh membrane, an aerosol generation mechanism configured to actuate the mesh membrane, an opening device for opening the cartridge, including a hollow needle, an aerosol supply nozzle from the mesh membrane to the outlet of the housing, characterized in that the housing includes a reservoir connected to the assembly with a mesh membrane and configured to accommodate liquid coming from the cartridge, and an air supply channel to the aerosol supply nozzle, while the opening device includes an additional hollow needle . 2. The aerosol generating module of the inhalation device according to claim 1, characterized in that it includes an inhalation valve located in the air supply channel. 3. The aerosol generation module of the inhalation device according to claim 1, characterized in that the cartridge loading compartment is movable relative to the housing in the direction of the opening device. 4. The aerosol generation module of the inhalation device according to claim 1, characterized in that the housing includes a removable part with an air supply channel. 5. The aerosol generation module of the inhalation device according to claim 1, characterized in that the housing includes an exhalation valve located along the path of the exhaled air flow.