WO2020099913A1 - Portable device for inhaling oxygen, "oxygen cigarette", and solid oxygen source for use therein - Google Patents

Abstract

A group of inventions relates to portable devices for inhaling oxygen, which are intended for use as prophylaxis or first-aid equipment in the context of intermittent oxygen deficiency as well as being an advantageous healthy alternative to traditional cigarettes. A portable device for inhaling oxygen comprises a housing with an outlet opening for oxygen, an oxygen-generating cartridge based on a solid oxygen source and a self-contained electric power source. The solid oxygen source for the portable device for inhaling oxygen represents a granulated mass of oxygen-emitting ingredients compressed into a cylindrical form, wherein the length thereof is no longer than 150 mm, and the diameter is no more than 15 mm. The technical result of the claimed group of inventions consists in increasing the usability and safety of the portable device for inhaling oxygen while ensuring the optimal performance of the device, which enables a positive effect to be achieved from its use.

Description

 Oxygen Cigarette Portable Oxygen Inhalation Device and solid oxygen source for use in it

 Technical field

 The group of inventions relates to small-sized portable devices for inhaling oxygen, intended for use as a prophylactic or first aid in conditions of periodic oxygen deficiency, as well as a healthy alternative to traditional cigarettes.

 Prevailing prior art

 The last decade has seen a steady decrease in atmospheric oxygen, especially in the territories of megacities and large industrial cities. This factor gives reason to talk about environmental hypoxia, as one of the causes of early mortality, increased oncological, cardiovascular diseases, heart and lung failure.

 In conditions of increased hypoxia and increased physical exertion, many experience vestibular disorders (dizziness, nausea), functional heart pain, chronic fatigue, shortness of breath. Such violations can be avoided by inhaling pure or medical oxygen.

 Oxygen inhalation devices are widely known in the art, which are oxygen-filled cylinders with a mask cap and a valve.

Such devices have several disadvantages. Firstly, they are disposable because the cylinders cannot be refilled. Secondly, they do not have the necessary aesthetic and ergonomic properties (attracting the attention of the surrounding device appearance, significant dimensions), which complicates their use in everyday life. Thirdly, cylinders cannot be used as an alternative to traditional cigarettes to replace a negative “smoker reflex” with a positive one. Fourth, the use and wearing of cylinders unsafe as they are under oxygen pressure.

 A portable device for inhaling oxygen, comprising a cylindrical body with a lid filled with medical oxygen, a valve assembly, a control switch, is also known in the art. The case with the device cover is made imitating the shape and appearance of a smoking article, for example, a cigarette (CN2302017, IPC A61M15 / 06, publ. 30.12.1998).

 This device has the necessary aesthetic properties and small size, but it is also inconvenient for everyday use, since it requires constant refueling or refueling with oxygen, which is not always possible to carry out quickly if there is no refueling device near.

 The prior art it is known to use a solid source of oxygen in oxygen generators used in emergency and emergency situations in respiratory protection (RF Patent 2147551, IPC С01В13 / 02, publ. 04/20/2000). However, these generators are aimed at long-term operation and the production of large quantities of oxygen, have significant overall dimensions and are not intended for domestic use in small-sized portable devices for inhaling oxygen.

 SUMMARY OF THE INVENTION

 The task to which the claimed group of inventions is directed is the development of an improved small-sized portable device for inhaling oxygen for domestic use, devoid of the disadvantages of the above analogues, and a solid source of oxygen intended for use in it, as well as expanding the arsenal of technical equipment for this purpose.

The technical result of the claimed group of inventions is to increase the ergonomics and safety of a portable device for breathing oxygen while ensuring optimal performance of the device to achieve a positive effect when its use.

 Improving the ergonomics of the device is due to improving the design of the device, simplifying the refueling and operation of the device in everyday life, ensuring the autonomy of the device. Improving the safety of the device is ensured by the lack of oxygen pressure in the device during storage. The optimal performance of the device consists in the generation by the device of the necessary amount of oxygen in a short period of time (about 1 l / min for 3-4 minutes) to provide the human body with oxygen under conditions of environmental hypoxia, to withdraw from conditions caused by hypoxia of any form of origin and manifestation blood oxygenation after 2-3 breaths of oxygen.

 The technical result is achieved due to the fact that the portable device for inhaling oxygen consists of a housing with an outlet for oxygen, an oxygen generating cartridge based on a solid oxygen source, and an autonomous power source, while the solid oxygen source is cylindrical in shape, its length is not more than 150 mm, and the diameter is not more than 15 mm.

 It is advisable that the length of the solid oxygen source is about 110 mm and the diameter is about 10 mm.

 It is advisable that the oxygen generating cartridge was made with a solid oxygen source, at least one filter and a heating element.

 It is advisable that at least one filter is a chemical.

It is advisable that the heating element was placed on the opposite side of the cartridge from the outlet and was electrically connected to an autonomous power source.

 It is advisable that the solid source of oxygen be a granular mass with a grain size of from 0.6 to 2 mm, compacted in a cartridge.

It is advisable that the solid oxygen source be made of substances from the group of chlorates or perchlorates of alkali metals. Preferably, the solid oxygen source is based on sodium chlorate, cobalt oxide and barium peroxide.

 It is advisable that the body was equipped with a mouthpiece.

 It is advisable that the body was in the form of a tubular body.

 It is advisable that the housing of the device and the housing of the oxygen-generating cartridge were made of metal and / or composite material.

 It is advisable that the device was provided with a heat-insulating layer and / or heat-insulating elements. In this case, the heat-insulating layer may be located between the solid oxygen source and the inner surface of the housing of the oxygen generating cartridge and / or on the outer surface of the housing of the oxygen generating cartridge.

 It is advisable that the device contains means for creating a control action for activating the heating element, in particular a trigger element for activating the heating element.

 The technical result is also achieved due to the fact that the solid source of oxygen for a portable device for inhaling oxygen is a granular mass of oxygen-emitting components sealed into a cylindrical shape, while its length is not more than 150 mm and its diameter is not more than 15 mm. Preferably, its length is about 110 mm and its diameter is about 10 mm.

 It is advisable that the granular mass had in the composition of granules with a size of from 0.5 to 3 mm, preferably from 0.6 to 2 mm.

 It is advisable that the substances from the group of alkali metal chlorates or perchlorates, preferably sodium chlorate, cobalt oxide and barium peroxide, be used as oxygen-releasing components.

 Description of drawings

 The invention is illustrated by drawings.

FIG. 1 is a view of a preferred embodiment of a portable oxygen inhaler. FIG. 2 is a view in longitudinal section of a preferred embodiment of a portable device for inhaling oxygen.

 The implementation of the invention

 In a preferred embodiment, the portable small-sized device for inhaling oxygen consists of a housing 1, a replaceable oxygen generating cartridge 2, made on the basis of a solid oxygen source, at least one filter and a heating element 3, and an autonomous power source electrically connected to the heating element 3, and also means for creating a control action for activating the heating element 3, in particular a starting element 4 for activating the heating element 3 from the power source.

 The heating element 3 is installed from one end of the solid oxygen source (from the opposite side from the outlet 5) in the oxygen generating cartridge 2 and can be made in the form of a spiral of nichrome wire. From the side of the outlet 5, at least a filter is installed for purifying oxygen from harmful impurities. In one embodiment, a chemical filter may be used. Also, the device can use a mechanical filter and a humidifier.

 The housing 1 as a whole is made of metal and / or composite material in the form of a tubular body with a mouthpiece 6. The second part 7 of the housing, in which the oxygen-generating cartridge 2 is located, can be made with through holes 8 for cooling the cartridge.

By using a solid oxygen source in the oxygen generating cartridge 2, the small size of the device can be ensured. The length of the housing 1 can be about 252 mm or less, while the length of the layer of a solid oxygen source in the oxygen generating cartridge 2 can be about 110 mm and less with a cartridge length of about 145 mm or less. The diameter of the housing 1 may be about 22 mm or less, and the diameter of the solid oxygen source in the oxygen generating cartridge 2 may be about 10 mm or less with a diameter of the cartridge of about 10.5 mm or less.

 A solid source of oxygen can be made from substances from the group of chlorates or perchlorates of alkali metals. In a preferred embodiment, the solid oxygen source is based on sodium chlorate, cobalt oxide and barium peroxide.

 A solid oxygen source is made as follows: components are synthesized (in the preferred embodiment, sodium chlorate, cobalt oxide and barium peroxide are used), mixtures of components are prepared, from which briquettes in the form of tablets are then pressed. Finished briquettes are crushed with screening of the target fraction (preferably 0.6 - 2.0 mm). Thus, several compositions are obtained, which are then sequentially loaded into the vibro-stacking cartridge 2. Layers with different component contents are arranged along the length of the cartridge 2 in order to ensure the stability of the combustion process and its reliable initiation.

 In other embodiments of the device, the solid oxygen source may also be in the form of a briquette or tablets.

 The use of a solid oxygen source allows to ensure the minimum dimensions of the device while ensuring optimal performance of the device to achieve a positive effect when using it.

The power source is located in the first end portion 9 of the housing, and the oxygen generating cartridge 2 is in the second opposite portion 7 of the housing. The connection of the oxygen generating cartridge 2 and the second part 7 of the housing with a power source in the first part 9 of the housing can be carried out by means of a quick coupler combined with a one- or two-pin connector. The self-contained power supply may be a rechargeable battery, for example, lithium-ion, nickel, alkaline or another.

 A heat-insulating layer may be formed between the solid oxygen source and the inner surface of the body of the oxygen generating cartridge 2 and / or on the outer surface of the housing.

 The device may also include flavoring.

 In a private embodiment, the portable device for inhaling oxygen is an oxygen cigarette.

 The device operates as follows.

 The user acts on the starting element 4 of the device to activate the heating element 3 from the power source. The solid oxygen source in the oxygen generating cartridge 2 is driven by a heat pulse from the heating element 3. After initiation, the oxygen generation process proceeds in the self-propagation mode of the heat wave through a partially gasified solid bulk density medium. To reduce the concentration of harmful breathing impurities in oxygen, the generated oxygen is filtered through a filter and inhaled through the mouthpiece 6 by the user.

 Cartridge 2 generates at least 2 liters of oxygen at a temperature of no more than 20 ° C for no more than 4 minutes.

 The short period of oxygen generation by the device eliminates the ingress of excess oxygen into the body, both when it is directly inhaled from the device and released into the environment. When the productivity of the oxygen device is about 1.2-1.5 l / min, which exceeds the minute oxygen consumption by the lungs (0.7 -1.0 l / min), one must also take into account the fragmentation of its intake into the body during periodic puffs. So already after 2-3 breaths of pure oxygen, oxygenation in the lungs increases by 1.5-2 times with environmental, household, age, professional hypoxia.

 Industrial applicability

Oxygen has an antihypoxic and calming effect, it can be very useful in emotional discharge. In conditions of often adverse environmental conditions with high smoke and pollution of atmospheric air, oxygen breathing has a therapeutic and prophylactic effect on the respiratory organs and helps to improve the general well-being of a person. In addition, a large number of smokers in the world experience not only nicotine, but also reflex dependence on cigarettes, which does not allow them to get rid of the habit. When using a portable device for breathing oxygen, in particular using a flavoring that mimics the smell of nicotine and others, many will be able to replace the bad habit with a good one.

 The device can be used in clubs, discos, educational institutions, gyms, vehicles, offices and other enclosed spaces, in high-altitude travel and other domestic situations.

Claims

CLAIM  1. A portable device for inhaling oxygen, consisting of a housing with an outlet for oxygen, an oxygen generating cartridge based on a solid oxygen source of cylindrical shape, and an autonomous power source, while the solid oxygen source has a length of not more than 150 mm and a diameter of not more than 15 mm  2. The portable device for inhaling oxygen according to claim 1, characterized in that the oxygen generating cartridge is made with a solid oxygen source, at least one filter and a heating element. 3. The portable device for inhaling oxygen according to claim 2, characterized in that at least one filter is made chemical.  4. The portable device for inhaling oxygen according to claim 2, characterized in that the heating element is located on the opposite side of the cartridge from the outlet.  5. The portable device for inhaling oxygen according to claim 2, characterized in that the heating element is electrically connected to an autonomous power source.  6. The portable oxygen inhalation device according to claim 1, characterized in that the solid oxygen source has a length of about 110 mm and a diameter of about 10 mm.  7. The portable device for inhaling oxygen according to claim 1, characterized in that the solid source of oxygen is made of substances from the group of chlorates or perchlorates of alkali metals.  8. The portable device for inhaling oxygen according to claim 7, characterized in that the solid oxygen source is based on sodium chlorate, cobalt oxide and barium peroxide. 9. The portable device for inhaling oxygen according to claim 1, characterized in that the solid source of oxygen is a granular mass with granule sizes from 0.6 to 2 mm. 10. The portable device for inhaling oxygen according to claim 1, characterized in that the housing as a whole is made in the form of a tubular body. 11. The portable device for inhaling oxygen according to claim 1, characterized in that the housing is equipped with a mouthpiece.  12. The portable device for inhaling oxygen according to claim 1, characterized in that the housing is made of metal and / or composite material.  13. The portable device for inhaling oxygen according to claim 1, characterized in that the housing of the oxygen-generating cartridge is made of metal and / or composite material.  14. The portable device for inhaling oxygen according to claim 1, characterized in that it is provided with a heat-insulating layer and / or heat-insulating elements. 15. Portable device for inhaling oxygen according to item 14, characterized in that the heat-insulating layer is located between the solid oxygen source and the inner surface of the housing of the oxygen generating cartridge and / or on the outer surface of the housing of the oxygen generating cartridge.  16. The portable device for inhaling oxygen according to claim 1, characterized in that it contains means for creating a control action to activate the heating element.  17. A portable device for inhaling oxygen according to item 16, characterized in that it contains a trigger element for activating the heating element.  18. A solid source of oxygen for a portable device for inhaling oxygen, which is a granular mass of oxygen-emitting components sealed into a cylindrical shape, with a length of not more than 150 mm and a diameter of not more than 15 mm. 19. A solid source of oxygen for a portable device for inhaling oxygen according to i. 18, characterizing that the granular mass has in the composition of granules ranging in size from 0.5 to 3 mm. 20. A solid source of oxygen for a portable device for inhaling oxygen according to i.18, characterized in that the granular mass has granules in the composition from 0.6 to 2 mm in size.  21. A solid source of oxygen for a portable device for inhaling oxygen according to i. 18, characterized in that its length is about 110 mm and its diameter is about 10 mm.  22. A solid source of oxygen for a portable device for inhaling oxygen according to i.18, characterized in that substances from the group of alkali metal chlorates or perchlorates are used as oxygen-releasing components.  23. A solid oxygen source for the portable oxygen inhaler according to claim 22, characterized in that sodium chlorate, cobalt oxide and barium peroxide are used as oxygen-generating components.