WO2023234806A1 - Method and device for heating a smoking mixture - Google Patents

Abstract

The invention relates to the field of hookah smoking and concerns smoking devices with electrical heating, in particular for heating a smoking mixture in the bowl of a hookah. Claimed are a method and device for heating a smoking mixture. A smoking mixture is heated by a heating element of said device for heating a smoking mixture and by air entering a smoking mixture container upon inhalation. The body of the heating device is designed to allow the passage and heating of all or a portion of an air flow arising upon inhalation. Additional ingredients in the form of condensation nuclei for vapourized components of a tobacco blend are introduced into the heatable portion of the air flow, said additional ingredients being introduced into the portion of the air flow that enters from the external environment and bypasses the heating element, or being introduced into both the portion of the air flow that enters from the external environment via the heating element and the portion of the air flow that enters from the external environment and bypasses the heating element, or being introduced into the overall air flow formed by mixing of the heated and unheated portions. The invention makes it possible to increase the thickness and smoothness of smoke during intensive hookah smoking.

Description

Method and device for heating a smoking mixture

The invention relates to the field of smoking using a hookah and concerns smoking devices with electrical heating, in particular, for heating the smoking mixture in a hookah bowl.

There is a known method for heating a smoking mixture, implemented in a device described in patent document US20160249677A1 (IPC A24F1/30; A24F47/00, published 09/01/2016). Heating of the smoking mixture in a known method is carried out both directly from the heating element or screen separating the heating element from the smoking mixture, including heating the hookah bowl, and from the air entering the hookah bowl when inhaling, while the air itself is heated from the heating element, which is performed in a form that allows heat to be transferred to air flow passing through or near it. With this heating method, fairly good hookah smokiness and high organoleptic smoke characteristics are achieved.

However, the known method has the disadvantage that during intensive smoking, when the tobacco mixture is very hot, the quality of the smoke deteriorates, it loses thickness, becomes hard and puts pressure on the throat. This is due to the fact that the amount of evaporated components increases, and their condensation, in the absence of a sufficient number of condensation nuclei in the inhaled air, occurs not in the volume, creating a soft, non-irritating aerosol, but on the walls of the air tract of the hookah and in the respiratory tract of the smoker, causing unpleasant sensations. The presence of condensation nuclei is a significant factor ensuring the quality characteristics of hookah smoke (https://waterpipe.pro/kalyannye-issledovaniya-fizicheskie-pokazateli-kalyannogo-aerozolya/).

There is also a known method for heating the smoking mixture, implemented in the device described in the patent document RU2748793C1 (IPC A24F1/30 A24F40/46, published 05/31/2021), selected as the closest analogue. In this device, the smoking mixture is heated using the heating element of the specified device and air entering the container for the smoking mixture during inhalation, the body of the heating device is made with the possibility of passing and heating all or part of the air flow arising during inhalation, and injected into the air flow water vapor and/or water-air aerosol. At the same time, non-evaporated drops of water contained in steam or aerosols, as well as particles of salts dissolved in water, including those added to it to regulate the process of vaporization, are effective condensation nuclei for the evaporated components of the tobacco mixture. This ensures a high density of smoke inhaled by the smoker and its softness even during intensive hookah smoking.

However, the known method has a significant drawback. It consists in the fact that water vapor and/or a water-air aerosol is introduced into that part of the air flow arising during inhalation, which is heated by a heating element. In this case, it is difficult to achieve a compromise between a sufficient amount of evaporated aerosol component necessary to create excess pressure in the housing of the heating element and a non-evaporated component, the particles of which are condensation nuclei. The consequence of this is that in the specified device, in the mode of maximum prevention of the formation of toxic gaseous products evaporated during the heating of the components of the smoking mixture, the density of the smoke is reduced.

Technical problem

The objective of the invention is to create a device and method for heating a smoking mixture that avoids the disadvantages of known solutions.

The solution of the problem

The technical result, which manifests itself when using the claimed method using the claimed device, is to increase the density and softness of the smoke during intensive hookah smoking.

The specified technical result is achieved by the fact that in the claimed method of heating a smoking mixture, in which a device for heating is used, the smoking mixture is heated using the heating element of the said device and air entering the container for the smoking mixture during inhalation, the body of the heating device is made with the possibility of passing and heating all or part of the air flow that occurs during inhalation, additional ingredients are introduced into the air flow, which are condensation nuclei for the evaporated components of the tobacco mixture, and these additional ingredients are introduced and/or anywhere in the air flow path. The claimed device for implementing the claimed method of heating a smoking mixture includes a heating element placed in a housing and configured to be connected to a power source, the housing of the heating element is configured to pass and heat all or part of the air flow that occurs during inhalation, a source of additional ingredients, which are the cores condensation for the evaporated components of the tobacco mixture, connected at the point of intake of the heated part of the air flow, and the source of additional ingredients is connected and/or in a place that prevents their heating by the heating element. The source of additional ingredients, which are condensation nuclei for the evaporated components of the tobacco mixture, can be generators of gas particles, generators of ionized particles, generators of an aerosol containing solid and/or liquid particles. Such devices have long been well known in the art, and can be implemented in various designs that are not of fundamental importance in the context of the present invention. A natural requirement for such generators is the safety of the generated components, both in composition and permissible concentrations. So, for example, if a carbon dioxide generator is used, its concentration in the inhaled air should be no more than 27,000 mg/ ^m3 , if a salt aerosol (NaCl) generator is used, the concentration should be no more than 5 mg/ ^m3 , etc. Due to the fact that the source of additional ingredients is connected in a place not associated with heating the air flow, for example, at the point of intake of the air flow coming from the external environment, bypassing the heating element, to the passage path of the total air flow formed by mixing the heated and unheated parts, there is the ability to ensure an effective concentration of condensation nuclei, regardless of the operating mode of the device, in which the maximum prevention of the formation of toxic gaseous products evaporated during the heating of the components of the smoking mixture is simultaneously achieved. The connection itself to the source of additional ingredients can be done using tees and air ducts.

One of the possible embodiments of the claimed group of inventions is further illustrated with the help of a drawing, which conventionally shows a diagram of a device for implementing the claimed method, in which the source of additional ingredients, which are condensation nuclei for the evaporated components of the tobacco mixture, is a wet salt aerosol generator connected through a tee and air ducts in places where heated and non-heated parts of the air flow are taken in.

In the figure, the numbers indicate: a heating element (1), located in a housing (2), connected to a power source (3) via a connecting cable (4). The heating device is installed above the container (5) for the components of the smoking mixture. The housing (2) of the heating element (1) contains inlet holes (6) for the heated part of the air flow that occurs during inhalation, inlet holes (7) for the unheated part of the air flow and outlet holes (8). In the housing (2) under the heating element there is an air flow volume limiter (9), made in the form of a plate with holes. The source of additional ingredients (10) is connected through an air tube (11) and a tee (12) by air tubes (13) and (14) to the inlet holes (6) and (7), respectively.

The heating element (1) can be made in the form of a spiral of nichrome wire, fixed to the air flow volume limiter (9). The heating element (1) can be powered from a DC source (3), for example, 12V, 10A with a PWM load current controller, through a connecting cable (4). The heating temperature of the smoking mixture in static mode can be changed by setting the corresponding load current value in the PWM controller. The source of additional ingredients (10) can be made in the form of an ultrasonic evaporator or nebulizer, into which a solution of pure table salt is poured, the concentration of which can be varied to achieve the greatest beneficial effect.

Figure.1

The method is carried out as follows: heating of the smoking mixture is carried out using the heating element (1) of the proposed device and air entering the container (5) for the smoking mixture during inhalation, the body (2) of the heating device is made with the possibility of passing and heating all or part of the air flow that occurs during inhalation, at any point in the air flow path, additional ingredients are introduced into the heated part of the air flow, which are condensation nuclei for the evaporated components of the tobacco mixture. In this case, additional ingredients can be introduced into part of the air flow coming from the external environment, bypassing the heating element, or into the total air flow formed by mixing the heated and unheated parts. Additional ingredients may be gas particles, or ionized particles, or an aerosol containing solid and/or liquid particles. In this case, additional ingredients, which are either aerosols, or gas or ionized particles, or a combination thereof, can be formed in the tract of inhaled air due to the occurrence of chemical reactions involving elements of the tract and/or components introduced into it and/or physical effects on them.

The device works as follows. The heating element (1) is placed above the container (5), power is supplied to it from a source (3) connected via a connecting cable (4). The heating element (1) heats the components of the smoking mixture placed in the container (5). In this case, the temperature in the upper part of the container (5) at the lower base of the housing (2) of the heating element (1) is 200-250 degrees Celsius. When a hookah user inhales, an area of low pressure is formed inside the flask, under the influence of which an air flow appears directed towards the flask along the hookah shaft. This air flow, which occurs during inhalation, enters the housing (2) of the heating element through the inlet openings (6) and (7), the air flow entering through the inlet openings (6) passes through the heating element (1), is heated and exits through outlet openings (8), mixing with the air flow entering through the inlet openings (7) in the container (5), where the smoking mixture placed in it is heated. Under the influence of heat from the heating element (1) and the heated air flow, the components of the smoking mixture evaporate, which then enter the hookah flask. Also, through the inlets (6) and (7), or through one of them, additional ingredients enter the housing (2) from the source of additional ingredients (10). Part of the additional ingredients entering through the inlet hole (6) evaporates, creating excess pressure in the housing (2), preventing the gaseous components of the tobacco mixture from reaching the heating element (1), and the other part of the additional ingredients, without having time to evaporate, exits through the outlet holes (8 ), enters the container (5) and then the hookah shaft, flask, and outlet hose, where it serves as condensation nuclei for the evaporated components of the tobacco mixture. In the case when additional ingredients enter the housing (2) only through the inlet holes (7), bypassing the heating element, they do not undergo evaporation and serve only as condensation nuclei for the evaporated components of the tobacco mixture, due to which, also choosing different sections of the air tubes ( 13) and (14), the optimal concentration of these nuclei in the inhaled air mixture is obtained.

In the case when, for example, a salt aerosol acts as additional ingredients, part of the aerosol entering through the inlet (6) evaporates, creating excess pressure in the housing (2), preventing the gaseous components of the tobacco mixture from reaching the heating element (1), the second part of the aerosol that does not have time to evaporate and exits through the outlet holes (8), entering the container (5) and then the hookah shaft, flask, outlet hose, serves as condensation nuclei for the evaporated components of the tobacco mixture. In addition, salt particles remaining from the evaporated aerosol serve as additional condensation nuclei. This is how it works in the prototype device. However, it is difficult to ensure the optimal ratios of evaporated and non-evaporated parts of the aerosol necessary for a cumulative positive effect. In the claimed invention, the salt aerosol enters the housing (2) also through the inlet holes (7), bypassing the heating element, does not undergo evaporation and serves only as condensation nuclei for the evaporated components of the tobacco mixture, due to which, also choosing different sections of the air tubes (13) and (14), it is easy to obtain the optimal concentration of these nuclei in the inhaled air mixture. In a particular case, the salt aerosol can enter the housing (2) only through the inlet holes (7) or be introduced into the air flow in any place that excludes its heating by the heating element, for example, directly into the container (5), hookah flask, or outlet hose. In this case, the source of additional ingredients (10) may be, for example, a dry salt aerosol generator, a gas particle generator or an ion generator.

It should also be noted that additional ingredients, which are either aerosols, or gas or ionized particles, or a combination thereof, can be formed in the inhaled air tract due to the occurrence of chemical reactions involving the elements of the tract or components introduced into it or physical impact on them . For example, the heating electrode (1) may be coated with a salt composition. When heated, micro and nano particles of this coating will peel off, be carried away by the air flow and create effective condensation nuclei for the evaporated components of the tobacco mixture. The internal surfaces and parts of the housing (2) can be processed in a similar way.

The presented figure, description of the design and use of the device do not exhaust the possible design options and do not limit in any way the scope of the proposed technical solution. Other options for execution and use are possible within the scope of the claimed formula. The given examples of implementation of a device for heating a smoking mixture and its use do not limit the scope of the claimed solution to the presented particular forms of execution of individual elements or their relationships. It should be understood that the claimed invention may be implemented in other embodiments of the device, with other elements, relationships and conditions than described above, in combination with other existing and future technologies.

Patent literature

US20160249677A1 (IPC A24F1/30; A24F47/00, published 09/01/2016);

RU2748793C1 (IPC A24F1/30 A24F40/46, published 05/31/2021).

Claims (10)

1. A method of heating a smoking mixture, in which a device for heating is used, the smoking mixture is heated using the heating element of the said device and air entering the container for the smoking mixture during inhalation, the body of the heating device is made with the possibility of passing and heating all or part of the air flow, arising during inhalation, additional ingredients are introduced into the heated part of the air flow, which are condensation nuclei for the evaporated components of the tobacco mixture, characterized in that these additional ingredients are introduced into part of the air flow coming from the external environment and bypassing the heating element, or are introduced into part of the air flow , coming from the external environment through the heating element and into part of the air flow coming from the external environment, bypassing the heating element, or is introduced into the total air flow formed by mixing the heated and unheated parts.
2. The method of heating a smoking mixture according to claim 1, characterized in that the additional ingredients are gas particles.
3. The method of heating a smoking mixture according to claim 1, characterized in that the additional ingredients are ionized particles.
4. The method of heating a smoking mixture according to claim 1, characterized in that the additional ingredients are an aerosol containing solid and/or liquid particles.
5. The method of heating a smoking mixture according to claim 1, characterized in that additional ingredients, which are either aerosols, or gas or ionized particles, or a combination thereof, can be formed in the tract of inhaled air due to the occurrence of chemical reactions involving elements of the tract or injected components in it, as well as the physical impact on them.
6. A device for heating a smoking mixture, including a heating element placed in a housing and configured to connect to a power source, the housing of the heating element is configured to pass and heat all or part of the air flow that occurs during inhalation, a source of additional ingredients that are condensation nuclei for evaporated components of the tobacco mixture, connected at the point of intake of the heated part of the air flow, characterized in that the source of additional ingredients is connected at the point of intake of the air flow coming from the external environment, passing the heating element, or connected at the place of intake of the air flow coming from the external environment through the heating element element, and an air flow coming from the external environment, passing the heating element, or is connected to the passage path of the total air flow formed by mixing the heated and unheated parts.
7. A device for heating a smoking mixture according to claim 6, characterized in that the source of additional ingredients is a generator of gas particles.
8. A device for heating a smoking mixture according to claim 6, characterized in that the source of additional ingredients is a generator of ionized particles.
9. A device for heating a smoking mixture according to claim 6, characterized in that the source of additional ingredients is an aerosol generator containing solid and/or liquid particles.
10. A device for heating a smoking mixture according to claim 6, characterized in that the source of additional ingredients, which are either aerosols, or gas or ionized particles, or a combination thereof, is located inside the path of inhaled air and is formed by elements of the path or components introduced into it, in this case, the generation of additional ingredients occurs due to the occurrence of chemical reactions involving the elements of the tract or components introduced into it, as well as physical effects on them.