UA121450C2 - METHOD OF DISINFECTION OF AIR IN INDOOR ROOM AND ITS SATURATION WITH USEFUL MICROELEMENTS - Google Patents

Abstract

The invention relates to the field of disinfection and purification of air from bacteria and microorganisms, namely to methods of disinfection of indoor air in medical, medical institutions, residential, office and other premises. The method of disinfection of indoor air and its saturation with useful trace elements includes creating a stream of air to be disinfected, the passage of this stream through a tank of salt, while the salt as it dries is moistened with seawater concentrate having a density of 1.1-1.35 g / cm3. The air flow is created by a fan. The tank is equipped with filters of inlet and outlet air, and the salt in the tank is placed in layers with a gap between them, with each layer of salt is placed in a mesh cassette, which is made removable.

Description

The invention belongs to the field of air disinfection and purification from bacteria and microorganisms, namely to methods of air disinfection in closed premises of medical, medical institutions, residential, office and other purposes.

There are a number of reasons that force you to resort to indoor air disinfection. These are not only seasonal flu and SARS viruses and fungal infections, but also allergic reactions, which are most often observed in people with weakened immunity. In this case, the question of how to completely disinfect the premises is particularly acute. In addition to expensive devices that clean and disinfect the air and specialized chemicals, there are also natural methods that are safe and highly effective, such as:

Aromatic lamps using oils with an antiseptic effect (for example, pine, juniper, eucalyptus, tea tree and lemon oil).

Advantages of the method: safety for people and animals; high efficiency in the fight against microbes (some aromas cope well with viral infections); economy (only two drops of any 100 95th essential oil are enough for 20 square meters of room). Disadvantages include the appearance of allergies, especially to citrus aromas.

Fumigation of premises (burning dry leaves of juniper, rosemary, lavender, sage or eucalyptus). This method is absolutely safe and effective, but some smells can cause unpleasant consequences in the form of allergic reactions.

Use of salt rooms or slides using sea salt (for example, according to Ukrainian patent 79761 dated 04/25/2013). The advantage of the method is that sea salt is a harmful substance for bacteria, viruses and microorganisms. Also, the salt crystals are in an uncompressed state, which increases the area of salt contact with air. The disadvantage is that insufficient air circulation between the salt crystals leads to a negligible effect of air disinfection.

The closest analogue was the method that is implemented when using a device to create a salt chamber atmosphere (VO 177111 SH, publication date 02.08.2018, IPC

AbI1IS 10/02), which includes a tank for salt of the first grinding, a fan, an ionizer and a bactericidal emitter, a tank for prepared crushed salt, equipped with a vibrator, and also a dispenser placed between it and the tank for salt of the first grinding, with

From this, a fan with an ionizer and a bactericidal emitter is placed under the tank for the salt of the first grinding. The method according to this device is implemented as follows:

The tank for prepared crushed salt is set in motion by a vibrator. Crushed salt enters the tank with rock salt of the first grinding through the dispenser in portions, where it is sprayed into the room under the influence of the air flow created by the fan.

The positive effect of this method is the saturation of the air in the room with useful elements and minerals.

The significant disadvantages of this method are that the salt, which is ground to a dust state and 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 parts of the salt settle on the person and on the surrounding objects, which limits the area of application of the device and makes it impossible to use it in rooms with a different purpose than medical ones. The use of a bactericidal emitter, such as ultraviolet mercury-discharge lamps or LED UV emitters, is also not effective enough. Inactivation of pathogenic microorganisms in the air by permitted doses of ultraviolet occurs only when these pests are static. If microorganisms move, interact with dust or air, the required radiation dose increases several times. Constant ultraviolet exposure to microorganisms causes mutation in the latter, therefore, after several exposures, viruses and infections become resistant to UV treatment. UV radiation is not always safe for humans.

The stated invention is based on the task of creating a simple and safe way of disinfecting the air in a closed room and saturating it with useful microelements, with an increased disinfecting effect.

The task is solved due to the fact that in the method of disinfecting the air in a closed room and saturating it with useful trace elements, which includes creating an air flow that is to be disinfected and saturated, passing the indicated flow through a tank with salt, according to the invention, salt as it dries moistened with a seawater concentrate having a density of 1.1-1.35 g/cm3.

According to the invention, the air flow is created by a fan.

According to the invention, the tank is equipped with inlet and outlet air filters.

According to the invention, the salt in the tank is placed in layers with a gap between them, while each layer of salt is placed in a removable mesh cassette.

The technical result of the proposed invention can be seen in the increase of the contact area of salt with air and in the saturation of the room with useful marine macro- and microelements, which are harmful to pathogenic microorganisms.

The following cause-and-effect relationship exists between the set of essential features of the claimed invention and the technical result achieved.

The beneficial properties of sea water and its effect on the human body are known. The chemical composition of sea water includes a large number of salts and minerals. Due to the content of ions of sodium, chlorine, magnesium, potassium, bromine, iodine and many other chemical elements, sea water has general strengthening, healing, anti-inflammatory and bactericidal properties. These substances are found in sea salt in the form of chemical compounds (mostly salts) or in a free solid state - crystals. Seawater concentrate is a liquid obtained after the separation of halite crystals (sea salt) in the solid phase in the process of deep concentration of seawater, and, unlike sea salt, contains mainly magnesium and partially sodium chlorides.

All components of the sea water concentrate are in a dissolved state in the form of ions, which causes its high permeability and a more pronounced disinfecting and antifungal effect (due to the dissolved components) than in sea salt, therefore the solution of the sea concentrate is a more saturated and effective substance for disinfection air.

Therefore, wetting the salt through which the air penetrates with seawater concentrate, which has a density of 1.1-1.3 g/cm3, leads to the occurrence of electrolytic dissociation, during which chlorine ions are released into the air, which are harmful to pathogenic microorganisms and viruses . At the same time, seawater concentrate is a saturated solution that does not dissolve salt.

Diffusion, which occurs when air is forced to pass at high speed between crystals of sea salt moistened with seawater concentrate, increases and accelerates the disinfection process.

Placing salt in the tank in layers with a gap between them allows you to additionally disinfect the air and saturate it with useful trace elements. And placing each layer of salt in

From the mesh cassette, due to the presence of holes in the cassette, it allows air to penetrate quickly throughout the salt, and also makes it possible for salt to "clump" and leads to an increase in the capacity of the tank. Making cassettes with salt removable makes it possible to replace the salt that was used with new, clean salt.

The method is implemented as follows:

When the fan is turned on, air from the room is sucked into the tank with salt. With the help of the inlet air filter, the air is cleaned of dust and foreign impurities. Next, the air enters the cassette, where it comes into contact with the salt, as a result of which the air is disinfected from pathogenic microorganisms and bacteria. Preferably, at least two cassettes with salt are used, so the air passes through the layers of salt several times. Then, through the outlet air filter, the disinfected air enters the room.

The air that has passed through the salt tank is again sucked in by the fan and the whole cycle is repeated many times. At the same time, to increase the disinfecting effect, the salt is periodically moistened with seawater concentrate, which has a density of 1.1-1.35 g/cm3.

As a seawater concentrate, the use of "Sea Salt Mixture" according to TU is recommended

In 24.5-22749193-001:2009. Due to repeated passage (circulation) of air through salt soaked in seawater concentrate, it is disinfected throughout the room and saturated with useful trace elements. The specified concentrate does not dissolve salt crystals, therefore it is used for washing salt, which allows its repeated use.

When applying the method in laboratory conditions in a closed room, a positive effect was achieved, which consisted in reducing bacteriological indicators (table).

Table

Bacteriological indicators (Mo | Name of indicators Unit of measurement Actual value

Bacteriological contamination of a closed 1 room BEFORE using the CFU method/ m3 1500 air disinfection in a closed room

Bacteriological contamination of a closed room after 40 minutes AFTER 2 rimishch r! CFU/m3 10 using a method of air disinfection in a closed room

Claims (4)

FORMULA OF THE INVENTION 1. A method of disinfecting the air in a closed room and saturating it with useful microelements, which includes the creation of a stream of air to be disinfected, passing the specified stream through a tank with salt, which is characterized by the fact that as the salt dries, it is moistened with a seawater concentrate having a density 1.1-1.35 g/cm3. 2. The method according to claim 1, which differs in that the air flow is created by a fan. 3. The method according to claim 1, which differs in that the tank is equipped with inlet and outlet air filters. 4. The method according to claim 1, which differs in that the salt in the tank is placed in layers with a gap between them, while each layer of salt is placed in a removable mesh cassette.