WO2023248012A1

WO2023248012A1 - Method for improving the quality of an inhalable aerosol and device for carrying out same

Info

Publication number: WO2023248012A1
Application number: PCT/IB2023/020032
Authority: WO
Inventors: Дмитрий Сергеевич ШЕПЕЛЕВ
Original assignee: Дмитрий Сергеевич ШЕПЕЛЕВ
Priority date: 2022-06-22
Filing date: 2023-06-01
Publication date: 2023-12-28

Abstract

The invention relates primarily to the service sector and is applicable to the use of devices for vaporizing liquid or solid mixtures, more particularly smoking devices having a container for a liquid, such as hookahs, water pipes and other such devices. The aim of the present invention is to expand the existing range of methods and devices for improving the quality of an inhalable aerosol applicable to devices having a container for a liquid by additionally moistening (and, if necessary, flavouring) the inhalable aerosol, as well as by cleaning the walls of said container, by exposing the liquid to ultrasonic radiation. This aim is solved in a method for improving the quality of an inhalable aerosol, which consists in creating a mixture of water and particles of an active substance; passing the mixture of water and particles of an active substance through a layer of at least one liquid situated in a container to form an inhalable aerosol; accumulating the inhalable aerosol above the surface of said liquid; and inhaling the aerosol, in that the at least one liquid situated in said container is exposed to ultrasonic radiation. A device for carrying out this method is also disclosed.

Description

A method for improving the quality of an inhalable aerosol and a device for its implementation

The invention relates primarily to the service sector and can be used when using devices for evaporating liquid or solid mixtures, in particular smoking devices equipped with a container with liquid, for example, a hookah, a water pipe and other similar devices.

The liquid in the container is, firstly, a filter for a mixture of air and particles of the active substance, in particular smoke, and secondly, a medium that cools and moisturizes this mixture, in particular smoke. In this regard, improving the quality of, for example, smoking is associated with the quality of the liquid in the container. The most common option is water. But often, for example, herbs and pieces of fruit are added to water hookahs. You can also pour other liquids into the hookah, for example, milk, juice, but they must be diluted with water to prevent foaming.

It is known that when smoking a hookah, resins are released, which settle on the walls and dry out, which contaminates the flask and gives an unpleasant aftertaste, further deteriorating the quality of the smoke. To prevent this, the hookah is washed before smoking, and a thorough wash is carried out after the 5th or 6th time of smoking.

The task of improving the quality of smoking by eliminating unpleasant odors inside the hookah, which can arise due to drying of the liquid medium and resins on the walls of the flask, is posed in the device closest to the claimed one for improving the quality of hookah smoking according to RU 2673143С1, publ. 2018.11.22 and the method implemented in it. A device for improving the quality of smoking includes a smoking device in the form of a hookah prepared for smoking with a container filled with liquid, which also contains an evaporation module, a tube between the specified evaporation module and the specified capacity, a smoking quality improvement module, a power supply and a control unit. In this case, the specified module for improving the quality of smoking is made in the form of a built-in magnetic stirrer containing a power supply, a magnetic movable armature placed in the hookah liquid, and a drive for rotating the magnetic movable armature, and is intended for cleaning the container from contaminants by mixing the liquid in the container.

A method for improving the quality of smoking, implemented in a known device, consists of creating smoke, passing smoke through a layer of liquid, accumulating smoke above the surface of said liquid and inhaling smoke, and improving the quality of smoking is achieved by cleaning the container from contaminants by mixing the liquid in the container.

The smoke in the specified device and method is formed in the evaporation module and passes through the liquid layer in the container, forming an aerosol (a mixture of air, steam and particles of the active substance) above the liquid layer, however, the steam in such a mixture is not enough and the aerosol turns out to be “hard”, irritating the mucous membranes smoker

The objective of the present invention is to expand the range of methods and devices for improving the quality of the inhalation aerosol for devices with a liquid container, due to additional humidification (if necessary, aromatization) of the inhalation aerosol, as well as by cleaning the walls of the said container by exposing the liquid to ultrasonic radiation.

The goal is to improve the quality of an inhalable aerosol, which consists of creating a mixture of air and particles of the active substance; passing a mixture of air and particles of the active substance through a layer of at least one liquid located in a suitable container to form an aerosol for inhalation; accumulation of an inhalable aerosol over the surface of said liquid; inhalation of aerosol, is solved by that at least one liquid located in the specified container is exposed to ultrasonic radiation.

Using ultrasonic radiation, it is preferable to create an air-to-air mixture over the surface of said at least one liquid, which additionally moisturizes the inhalable aerosol, and at least one flavoring agent can be added to said at least one liquid and, creating a flavored water-air mixture, the inhaled aerosol is additionally flavored

Ultrasonic radiation can create a cavitation disturbance in the said liquid, which removes contaminants from the inner surface of the said container.

The stated problem is a device for improving the quality of an inhalable aerosol with a container containing at least one liquid and equipped with a port for transferring the aerosol to an element in direct contact with the user, containing an evaporation module, a tube between said evaporation module and said container, an aerosol quality improvement module for inhalation unit, lowering unit and control element, is solved in that the module for improving the quality of the inhalation aerosol is made in the form of an ultrasonic generator, the control input of which is connected to the control element, and the output is connected to an ultrasonic emitter, at least one plate of which is placed with the possibility of contact although with one liquid in the indicated container.

The claimed device can be made in the form of a hookah, or a water pipe, or an electronic cigarette, or an inhaler, or a vape, or a vaporizer.

At least one ultrasonic emitter plate may be placed on or in the bottom of said container, or on or in the side wall of said container. The ultrasonic emitter is preferably configured to create a water-air mixture above the surface of at least one liquid, which additionally moisturizes the aerosol for inhalation, and said at least one liquid may contain at least one flavoring agent with the ability to additionally flavor the aerosol for inhalation.

The ultrasonic emitter can also be configured to create a cavitation disturbance in said liquid, removing contaminants from the inner surface of said container.

The claimed invention is presented in non-limiting drawings, in which: Fig. 1 schematically shows the spatial layout of the claimed device for improving the quality of an inhalable aerosol; Figure 2 schematically shows the spatial layout of a container with liquid and a module for improving the quality of an aerosol for inhalation of the claimed device according to Figure 1; Fig. 3 schematically shows the spatial layout of another example of the implementation of the claimed device for improving the quality of an inhalable aerosol; Figure 4 schematically shows the spatial layout of another example of the implementation of the claimed device for improving the quality of an inhalation aerosol; Figure 5 shows the spatial layout of the ultrasonic emitter of the device according to Figure 4; Figure 6 schematically shows the spatial layout of another example of the implementation of the claimed device for improving the quality of an inhalation aerosol; Fig. 7 shows the spatial layout of the ultrasonic emitter of the device according to Fig. 6; Fig. 8 schematically shows the spatial layout of another example of the implementation of the claimed device for improving the quality of an inhalable aerosol; Figure 9 shows the spatial layout of the ultrasonic emitter of the device in Figure 8.

The claimed method is implemented in the claimed device for improving the quality of the inhalation aerosol, shown in Fig. 1 using the example of a container 1 containing at least one liquid 2 and equipped with a threshold 3 for transferring the inhalation aerosol to an element in direct contact with the user (not shown in the drawings). shown). The claimed device for improving the quality of an inhalation aerosol contains an evaporation module 4 and a tube 5 between said evaporation module 4 and said container 1, as well as a module for improving the quality of an inhalation aerosol. The claimed device also contains a power supply (not shown in the drawings), which can be used as a set of electric batteries or accumulators, or as a network unit. There is also a control element 6, made in this example of implementation in the form of a power button (in other examples of implementation, the control element can be made in the form of a relay, or the function of the control element can be performed by a control unit common to the entire device).

The module for improving the quality of the inhalable aerosol is made in the form of an ultrasonic (hereinafter referred to as ultrasonic) generator 7, the control input of which is connected to control element 6 by signal wire 8, conditionally shown in Fig.2. The supply voltage to the ultrasonic generator 7 can be supplied from the specified power supply, or can be organized from an additional autonomous power supply (not shown in the drawings). The output of the ultrasonic generator 7 is connected via connecting wires 9 with an ultrasonic (hereinafter referred to as ultrasonic) emitter 10, the plate of which is placed in this example implementation in the bottom of the specified container 1 with the possibility of contact with liquid 2.

During operation, liquid 2 is poured into container 1 to a certain level. Flavorings may be added to liquid 2.

The claimed method is implemented during the operation of the claimed device.

Control element 6 (in this example, pressing a button) through the signal wire 8 supplies a switching signal to the ultrasonic generator 7. The generated high-frequency signal is transmitted to the ultrasonic emitter plate 10 through connecting wires 7 and carries out ultrasonic influence on the liquid with which this ultrasonic emitter plate 10 there is direct contact.

The ultrasonic emitter plate 10 creates a point zone of low pressure, which leads to the formation of vapor at a local point in the liquid at room temperature.

The steam rushes upward and concentrates in the liquid-free part 2 11 of container 1.

When using the claimed device, a mixture of air and particles of the active substance is formed in the evaporation module 4, directed through the tube 5 into liquid 2 and passed through it. The resulting aerosol in the form of a mixture of air, steam and particles of the active substance is accumulated in the liquid-free part 11 of container 1, where it is additionally enriched (and, if necessary, aromatized) with liquid vapor, with which this plate of the ultrasonic emitter 10 has direct contact. Next, through port 3, this enriched aerosol enters the element (not shown in the drawings), which is in direct contact with the user, who inhales this aerosol.

As a result of this operation, quality improves aerosol for inhalation, firstly, due to the saturation of the aerosol with liquid vapor (flavored, if necessary), with which this plate of the ultrasonic emitter 10 has direct contact, which allows you to fully reveal (or hide, if necessary) the taste of the active substance. The moistened aerosol does not dry out the mucous membranes and makes using the device much more comfortable.

The ultrasonic emitter 10, in this case, is designed to create a cavitation disturbance in the said liquid 2, removing contaminants from the inner surface of the said container 1.

Various examples of implementation of the claimed device are presented below.

Example 1.

In an example of the implementation of the claimed device, shown in Figs 1 and 2, the ultrasonic emitter 10 is located at the bottom of the container 1 with liquid 2. A prerequisite in this case is direct contact of the ultrasonic emitter plate 10 with liquid 2 through full or partial immersion of the ultrasonic emitter plate 10 in liquid 2.

The ultrasonic generator 7 is connected by means of connecting wires 9 passing through channel 12 in the wall of the container 1 or through any other channel that has a through passage from the top of the container 1 to the location of the ultrasonic emitter plate 10.

The ultrasonic emitter plate 10 creates a point zone of low pressure, which leads to the formation of vapor at a local point in liquid 2 at room temperature.

During the use of the claimed device, the mixture of air and particles of the active substance formed in the evaporation module 4 enters through the tube 5 into the liquid 2, passing through which accumulates in the liquid-free part 11 of container 1 in the form of an aerosol for inhalation, where it is additionally enriched (and, if necessary, aromatized) by the vapor of liquid 2, with which the ultrasonic emitter plate 10, in this example, has direct contact. Next, through port 3, this enriched mixture enters the element in direct contact with the user (not shown in the drawings).

As a result of this operation, the quality of the inhalation aerosol is improved, firstly, due to the saturation of the inhalation aerosol with liquid vapor (flavored, if necessary), which allows you to fully reveal (or, if necessary, hide) the taste of the active substance. The moistened aerosol does not dry out the mucous membranes and makes the use of the claimed device much more comfortable.

Thus, the removal of contaminants from the surface of container 1 during exposure of the liquid to ultrasonic radiation also significantly improves the quality of the aerosol for inhalation.

Example 2.

Another example of the implementation of a container with liquid and a module for improving the quality of smoking for the claimed device for improving the quality of smoking is presented in Fig. 3.

The ultrasonic emitter 10 can be located on any or in any of the side walls of the container 1 with liquid 2. In this example, the plate of the ultrasonic emitter 10 is located in the right side wall of the container 1. A prerequisite in this case is direct contact of the plate of the ultrasonic emitter 10 with liquid 2 through complete or partial immersion of the ultrasonic emitter plate 10 in liquid 2. Ultrasonic generator 7 connected by means of connecting wires 9 passing through channel 12 in the wall of the container 1 or through any other channel that has a through passage from the top of the container 1 to the location of the ultrasonic emitter plate 10.

The steam rushes upward and concentrates in the liquid-free part 11 of container 1.

During the use of the claimed device, the mixture of air and particles of the active substance formed in the evaporation module 4 enters through the tube 5 into the liquid 2, passing through which it accumulates in the liquid-free part 11 of the container 1 in the form of an aerosol for inhalation, where it is additionally enriched with the vapor of the liquid 2 created by exposure to ultrasound. Next, through port 3, this enriched inhalation aerosol enters the element in direct contact with the user (not shown in the drawings).

As a result of this operation, the quality of the inhalation aerosol is improved, firstly, due to the saturation of the inhalation aerosol with liquid vapor (flavored, if necessary), which allows you to fully reveal (or, if necessary, hide) the taste of the active substance. The moistened inhalation aerosol does not dry out the mucous membranes and makes the use of the claimed device much more comfortable.

Thus, the removal of contaminants from the surface of container 1 during exposure of the liquid to ultrasonic radiation also significantly improves the quality of the aerosol for inhalation. Example 3.

Another example of the implementation of a container with liquid and a module for improving the quality of an inhalation aerosol for the claimed device for improving the quality of an inhalation aerosol is presented in Figs. 4 and 5.

The ultrasonic emitter 10 can be installed at the bottom or in the walls of the chamber 13 (can be made in the form of a tube or any other container), immersed in container 1 with liquid 2. A prerequisite in this case is direct contact of the plate of the ultrasonic emitter 10 with liquid 2 through holes 14 in the bottom of chamber 13.

The ultrasonic generator 7 is connected by means of connecting wires 9 passing through channel 12 in the wall of the chamber 13 or through any other channel that has a through passage from the top of the chamber 13 to the location of the ultrasonic emitter plate 10.

The ultrasonic emitter plate 8 creates a point zone of low pressure, which leads to the formation of vapor at a local point in liquid 2 in chamber 13 at room temperature.

The steam rushes upward from chamber 13 and concentrates in the liquid-free part 11 of container 1.

During the use of the claimed device, the mixture of air and particles of the active substance formed in the evaporation module 4 enters through the tube 5 into the liquid 2, passing through which it accumulates in the liquid-free part 11 of the container 1 in the form of an aerosol for inhalation, where it is additionally enriched with steam, created by exposure to ultrasound. Next, through port 3, this enriched inhalation aerosol enters the element in direct contact with the user (not shown in the drawings).

As a result of this operation, the quality of the aerosol for inhalation improves, firstly, due to the saturation of the aerosol for inhalation of liquid vapor (flavored if necessary), which allows you to fully reveal the taste of the active substance. The moistened inhalation aerosol does not dry out the mucous membranes and makes the use of the claimed device much more comfortable.

Example 4.

Another example of the implementation of a container with liquid and a module for improving the quality of an inhalation aerosol for the claimed device for improving the quality of an inhalation aerosol is presented in Figs. 6 and 7.

The ultrasonic emitter 10 can be installed at the bottom or in the walls of an additional container 15 with liquid 16, immersed in container 1 with liquid 2 and not having direct contact with liquid 2 in container 1. Additional container 15 has a closed submersible part 17. Through hole 18 in container 15 is filled with liquid 16, which may be the same or different from liquid 2 in container 1. A prerequisite in this case is direct contact of the ultrasonic emitter plate 10 with liquid 16 in additional container 15.

The ultrasonic generator 7 is connected by means of connecting wires 9 passing through channel 19 in the wall of the container 15 or through any other channel that has a through passage from the top of the container 15 to the location of the ultrasonic emitter plate 10. The ultrasonic emitter plate 10 creates a point zone of low pressure, which leads to the formation of steam at a local point in the liquid 16 in an additional container 15 at room temperature.

The liquid vapor 16 generated during the operation of the ultrasonic emitter 10 passes through the holes 20 in the container 15 and is concentrated in the liquid-free part 11 of the container 1.

During the use of the claimed device, the mixture of air and particles of the active substance formed in the evaporation module 4 enters through the tube 5 into the liquid 2, passing through which it accumulates in the liquid-free part 11 of the container 1 in the form of an aerosol for inhalation, where it is additionally enriched with steam liquid 16 created by exposure to ultrasound. The liquid 16 can be, for example, a flavoring agent or a mixture of flavoring agents, or a flavoring agent, which allows, without affecting the liquid 2 and without changing its composition and/or properties, to flavor the inhalation aerosol and/or change its taste, if necessary, masking the taste active substance.

Next, through port 3, this enriched inhalation aerosol enters a device in direct contact with the user (not shown in the drawings).

As a result of this operation, the quality of the aerosol for inhalation improves. The moistened inhalation aerosol does not dry out the mucous membranes and makes the use of the claimed device much more comfortable.

In this example implementation, to further improve the quality of the aerosol for inhalation by removing contaminants from the inner surface of the container 1, the claimed device must be equipped with a separate ultrasonic emitter, designed to create a cavitation disturbance in the liquid 2 in the specified container 1 (not shown in the drawings). Example 5.

Another example of the implementation of a container with liquid and a module for improving the quality of smoking for the claimed device for improving the quality of smoking is presented in Figs. 8 and 9

The ultrasonic emitter 10, in this example, is installed in the upper part of the second additional container 21, partially immersed in container 1 with liquid 2 and having direct contact with liquid 2 in container 1 by the lower immersed part 22. The lower immersed part 22 of the second additional container 21 is leaky, because is made with a hole 23. Through hole 23, liquid 2 from container 1 enters the second additional container 21 and saturates the hygroscopic tube 24. Due to the capillary effect, liquid 2 from container 1 through the specified hygroscopic tube 24 enters the plate of the ultrasonic emitter 10, where, under the influence ultrasound, liquid evaporates 2.

The ultrasonic generator 7 is connected by means of connecting wires 9 passing through channel 12 in the wall of the container 1 or through any other channel that has a through passage from the top of the container 20 to the location of the plate of the ultrasonic emitter 10. The steam generated during the operation of the ultrasonic emitter 7 passes through holes 25 in container 21 and is concentrated in liquid-free part 11 of container 1.

During the use of the claimed device, the mixture of air and particles of the active substance formed in the evaporation module 4 enters through the tube 5 into the liquid 2, passing through which it accumulates in the liquid-free part 11 of the container 1 in the form of an aerosol for inhalation, where it is additionally enriched with steam created by exposure to ultrasound. Next, through port 3, this enriched inhalation aerosol enters a device in direct contact with the user (not shown in the drawings).

In this example implementation, to further improve the quality of smoking by removing contaminants from the inner surface of the container 1, the claimed device must be equipped with a separate ultrasonic emitter, designed to create a cavitation disturbance in the liquid 2 in the specified container 1 (not shown in the drawings).

Thus, the claimed method and device allow us to solve the problem and provide an expansion of the range of methods and devices for improving the quality of the inhalation aerosol for smoking devices with a liquid container, due to additional humidification (if necessary and aromatization) of the inhalation aerosol, as well as by cleaning the walls of the specified container by exposing the liquid to ultrasonic radiation.

Claims

Claim

1. A method for improving the quality of an inhalable aerosol, which consists in creating a mixture of air and particles of the active substance; passing a mixture of air and active substance particles through a layer of at least one liquid located in a suitable container to create an inhalable aerosol; accumulation of an inhalable aerosol over the surface of said liquid; inhalation of the resulting aerosol, characterized in that at least one liquid located in the specified container is exposed to ultrasonic radiation.

2. The method according to claim 1, characterized in that ultrasonic radiation is used to create a water-air mixture above the surface of at least one liquid, with which the aerosol is additionally moistened for inhalation.

3. The method according to claim 2, characterized in that at least one flavoring agent is added to said at least one liquid and, creating a flavored water-air mixture, the aerosol is additionally flavored for inhalation.

4. The method according to claim 1, characterized in that ultrasonic radiation creates a cavitation disturbance in the said liquid, which removes contaminants from the inner surface of the said container.

5. A device for improving the quality of an inhalation aerosol with a container containing at least one liquid and equipped with a port for transferring the inhalation aerosol to an element in direct contact with the user, containing an evaporation module, a tube between said evaporation module and said container, a quality improvement module aerosol for inhalation, a power supply and a control element, characterized in that the module for improving the quality of the aerosol for inhalation is made in the form of an ultrasonic generator, the control input of which is connected to the control element, and the output is connected to an ultrasonic emitter, at least one plate of which is placed with the possibility of contact with at least one liquid in the specified container.

6. The device according to item 5, characterized in that the device is made in the form of a hookah, or a water pipe, or an electronic cigarette, or an inhaler, or a vape, or a vaporizer.

7. The device according to point 5, characterized in that at least one plate of the ultrasonic emitter is placed in/at the bottom of the specified container.

8. The device according to item 5, characterized in that at least one plate of the ultrasonic emitter is placed in/on the side wall of the specified container.

9. Device according to item 5, characterized in that the ultrasonic emitter is designed to be created above the surface specified at least one liquid water-air mixture that additionally moisturizes the aerosol for inhalation.

10. The device according to item 9, characterized in that said at least one liquid contains at least one flavor with the possibility of an additional aerosol for inhalation.

11. The device according to item 5, characterized in that the ultrasonic emitter is designed to create a cavitation disturbance in the said liquid, removing contaminants from the inner surface of the said container.