WO2021025657A1

WO2021025657A1 - Device for disinfecting air in an enclosed space and creating the microclimate found in natural salt caves

Info

Publication number: WO2021025657A1
Application number: PCT/UA2020/000077
Authority: WO
Inventors: Анатолий Валэрийовыч МОЙСИН
Original assignee: Анатолий Валэрийовыч МОЙСИН
Priority date: 2019-08-06
Filing date: 2020-08-04
Publication date: 2021-02-11

Abstract

The technical solution relates to devices which can be used in salt therapy and wellness for creating the microclimate found in salt caves, and also for disinfecting air in enclosed spaces, inter alia in medical and health care institutions, as well as living spaces, office spaces and other types of spaces. A device for disinfecting air in enclosed spaces and creating the microclimate found in natural salt caves comprises a tank for salt, and a blower fan disposed below the salt tank, wherein said blower fan contains an air filter, and the salt tank contains an exhaust ait filter, and the base of the salt tank is configured in the form of a removable salt holder made of mesh. The salt tank can comprise at least one additional removable mesh salt holder disposed in a gap between holders. The salt tank and the blower fan are disposed inside a housing having an air intake opening and an air exhaust opening. The air exhaust opening of the housing is provided with a cover configured so that it can be opened with a gap being formed between the housing and the cover.

Description

A device for air disinfection in a closed room and creating a microclimate of natural salt caves

The technical solution refers to devices used to create a microclimate of salt caves during halotherapy and halotherapy, as well as for air disinfection in a closed room, including medical, medical institutions, as well as residential, office and other premises.

Halotherapy is a method of treating diseases of the bronchopulmonary system. The active factor of halotherapy is a dry fine aerosol of natural rock salt.

Known bactericidal action of ionized particles of rock salt, as well as its combination with mucolytic effect in the treatment of bronchial asthma, dust and nicotinic bronchitis. The treatment of bronchial asthma is widely used in salt mines, as well as in halo chambers that simulate salt mines. The main healing factors of natural salt caves are air disinfection with salt, which in large quantities comes into contact with the air. In artificial caves, salt spray is sprayed with the help of special devices.

A well-known apparatus for creating a microclimate of a salt cave (application Ne2003108673, publication date 10.09.2003, IPC A61G 10/02), containing means for preparing ionized aerosol and means for spraying it in a room located in the body. Means for spraying ionized aerosol are made in the form of a fan and a spray duct connected to the room, and the means for preparing an ionized aerosol are made in the form of a glass, which contains a mixture of natural salt and Aerogalit preparation, and the lower part of the glass is connected to the discharge pipe of the blower, and the upper part of the glass is connected to the cavity of the spray air duct, while the air blower is made with parameters that ensure the transfer of a mixture of natural salt and the Aerogalite preparation into a fluidized bed state and the removal of the obtained dry ionized aerosol into the cavity of the spray air duct, and the fan is made with the parameters, providing the supply of ionized aerosol when the air duct is sprayed into the room.

The disadvantage of this technical solution is that the Aerogalite preparation, through the boiling salt process, saturates the salt room with the entire volume at once and the concentration decreases over time, which limits the maintenance of a constant concentration of salt aerosol in the air.

For the closest analogue, a device for creating an atmosphere of a salt chamber (RU 177111 U1, publication date 02/08/2018, IPC A61G 10/02) was adopted, including a reservoir for salt of the first grinding, a fan, an ionizer and a bactericidal emitter, a reservoir for prepared ground salt, provided a vibrator, as well as a dispenser placed between it and the reservoir for the first grinding salt, while the fan with an ionizer and a bactericidal emitter is located under the reservoir for the first grinding salt.

Significant disadvantages of this technical solution are the noise from the vibration of the apparatus when grinding salt, as well as the fact that the salt crushed to a state of dust is sprayed into the air environment of the room, settles on the mucous membranes of a person or animal and can lead to their irritation. Also, small particles of salt settle on a person and on surrounding objects, which limits the scope of the device and makes it impossible to use it in rooms other than medical ones. The use of a germicidal emitter such as an ultraviolet mercury gas discharge lamp or an LED UV emitter is also ineffective. Inactivation of pathogens in the air with permitted doses of ultraviolet radiation occurs only when these pests are static. If microorganisms move, interact with dust or air, then the required radiation dose increases several times. Constant exposure to ultraviolet light on microorganisms causes mutations in the latter, therefore, after several irradiation, viruses and infections become resistant to UV treatment. UV radiation is not always safe for humans.

The stated technical solution is based on the task to improve the device for creating the microclimate of the salt chamber, to create the possibility of air disinfection in a closed room for any purpose in a natural way, without the use of UV emitters and other devices harmful to the health of living beings.

The task is achieved due to the fact that in a device for air disinfection in an enclosed space and creating a microclimate of natural salt caves, which contains a salt container, a blower placed under the salt container, according to the technical solution, the blower is equipped with an air filter, a container for the salts are equipped with an outgoing air filter, and the base of the salt container is made in the form of a salt cassette, which is mesh and removable.

According to the technical solution, the salt container is equipped with at least one additional removable mesh cassette with salt, which is located with a gap between the cassettes.

According to the technical solution, the salt container and the blower are placed in a housing that has an air intake hole and an air exhaust hole.

The opening of the housing for air outlet is equipped with a cover. The lid is made with the possibility of opening with the creation of a gap between the body and the lid.

The technical result of the proposed technical solution is seen in cleaning the air from impurities, increasing the capacity of the salt container and increasing the area of contact of air with salt, which leads to a decrease in the amount of bacterial air pollution in a closed room.

Between the set of essential features of the proposed technical solution and the achieved technical result, there is the following causal relationship.

Equipping the blower with an air filter allows you to clean the incoming air from dust and impurities. And the use of an exhaust air filter excludes the ingress of salt microparticles into the room air.

Making the base of the salt container in the form of a cassette with salt, which they are made mesh, due to the presence of holes in the cassette, it allows air to quickly penetrate through the salt, which, due to its natural properties, disinfects the air and saturates it with useful microelements. Due to the fact that the salt in the cassette is placed in a free state, during the passage of air through the salt layer, the area of contact of air with salt increases. The use of additional cassettes with salt allows you to additionally disinfect the air and saturate it with useful microelements. And the location of the cassettes with a gap between them makes it impossible for the salt to "crawl" and leads to an increase in the capacity of the salt container. Making cassettes with salt removable makes it possible to replace salt that was in use with new, clean salt.

The placement of the salt container and the blower fan in the housing, which has an air intake hole and an air exhaust hole, makes it possible to obtain a device with high aesthetic values. The body can be made of any shape, from any material, for example, wood, metal, plastic and the like.

Equipping the housing opening for air outlet with a cover that can be opened to create a gap between the housing and the cover makes it impossible for foreign objects to enter the device.

Salt, especially sea salt, is harmful to bacteria, viruses and microorganisms. Due to the repeated passage (circulation) of air through the salt, it is disinfected throughout the room.

The technical solution is illustrated by a drawing (Fig. 1), where: 1 - salt container; 2 - cassette; 3 - salt; 4 - fan; 5 - air filter; 6 - outlet air filter; 7 - body; 8 - hole for air intake; 9 - hole for air outlet; 10 - cover.

The device works as follows.

In working condition, open the lid 10 of the housing 7, freeing up the opening for air outlet 9. When the fan 4 is turned on, air from the room is sucked in through the air intake 8, preliminarily passing through the air filter 5, where it is cleaned of dust and impurities. Then the air is supplied by the fan 4 to the salt container 1. Getting into the cassette 2, the air comes into contact with the salt 3, as a result of which the air is disinfected from pathogenic microorganisms and bacteria. In a preferred embodiment, at least two salt cassettes are used, so the air passes through the salt layers 3 several times. Then, through the outlet air filter 6 and hole 9, air enters the room. The air that has passed through the device is sucked in again by the fan 4 and the whole cycle is repeated many times. The size of the device and the number of salt cassettes are adjusted according to the air volume in the room. For a room with a volume of 30 m3, 3-4 kg of salt and a fan with a capacity of 70 m3 / hour are used.

To increase the disinfecting effect, it is recommended to periodically wet the salt with the "Sea salt mixture" according to TU U 24.5-22749193-001: 2009. The specified concentrate does not dissolve salt crystals, therefore it is used for washing salt, which allows its repeated use.

In laboratory tests of the device in a closed room, a positive effect was achieved, which consisted in a decrease in bacteriological parameters (Table 1).

Tab. 1 Bacteriological indicators

Claims

Formula

1. A device for disinfecting air in an enclosed space and creating a microclimate for natural salt caves, containing a container for salt, a blower located under the container for salt, which differs in that the blower contains an air filter, the container for salt contains a filter for outgoing air, and the base of the salt container is made in the form of a salt cassette, which is mesh and removable.

2. The device according to claim. 1, characterized in that the salt container contains at least one additional removable mesh cassette with salt, located with a gap between the cassettes.

3. Device according to any one of paragraphs. 1-2, characterized in that the salt container and the blower fan are placed in a housing that has an air intake hole and an air exhaust hole.

4. The device according to claim 3, characterized in that the opening of the housing for air outlet is equipped with a cover.

5. The device according to claim 4, characterized in that the cover is openable to create a gap between the body and the cover.