RU199923U1 - Indoor disinfection nozzle - Google Patents

Abstract

A useful model device for disinfection of enclosed spaces relates to the field of medicine, and more specifically to disinfection. This utility model is supposed to be used both in the practice of the RCB protection troops of the Armed Forces of the Russian Federation, and in related areas affecting the issues of disinfection and sanitation. The utility model is based on the technology of activation and multiple enhancement of disinfecting properties of a 3-5% hydrogen peroxide solution cold plasma. As a result of this process, there is a complete cleansing of the premises and electrical appliances from microorganisms without corrosion of electrical appliances and their deterioration. The currently known disinfection devices do not solve the problem of effective disinfection of large rooms and areas. The technical result that is planned to be obtained using the utility model is in increasing the area of effective disinfection. Thus, this utility model has an increased efficiency of disinfection work due to the acceleration and simplification of the disinfection process; the ability to disinfect closed rooms, sealed common areas with less labor costs; increased economic efficiency; increased effective area of disinfection.

Description

The tasks of carrying out disinfection measures for the RCB protection troops can arise both in peacetime in case of accidents at biologically hazardous facilities, and in wartime - when biological weapons are used.

Disinfection measures form the basis for the special treatment of troops exposed to biological contamination and are among the most important elements of anti-epidemic protection of the personnel of the Armed Forces and the population.

Disinfection is understood as a set of measures aimed at destroying pathogens of infectious diseases and destroying toxins at environmental objects.

Today, the main disinfection methods used in domestic military and civilian institutions are chemical and physical methods.

Physical methods of disinfection are based on the destruction of pathogenic biological agents using heat treatment, heat treatment under pressure, treatment with light radiation of various ranges and electromagnetic radiation of ultra high frequency, etc.

Chemical methods of disinfection are carried out by exposing microorganisms to chemicals that have a bactericidal, sporicidal and fungicidal effect.

The developed utility model is intended to obtain a plasma discharge to increase the disinfecting properties of solutions for disinfection of closed rooms, hermetic general-purpose places and social facilities from pathogenic microorganisms.

In the proposed utility model "nozzles for disinfection of closed rooms", a physical method is used based on the use of a special state of matter - non-equilibrium (cold) plasma.

Non-equilibrium (cold) plasma is a partially ionized gas (the fraction of charged particles in the gas is about 1%) with a temperature of several tens of degrees (30-40 ° C), which destroys pathogenic microorganisms, bacteria, harmful impurities in water, air and various surfaces, providing a powerful bactericidal effect on microorganisms.

Cold plasma can be used in medicine for disinfection of human and animal wounds, water purification and drinking water, in food processing, disinfection of premises, agriculture for the preparation and treatment of seeds.

The closest to the claimed technical device is a disinfection device (RU patent No. 2670654, publ. 08/26/2016), where the activating mist of the disinfectant liquid is obtained by ionizing action on it with one of the types of energy - electronic or photonic at atmospheric pressure and its subsequent contact with the processed object. Disinfection is achieved by exposure to a finely dispersed activated aerosol on the treated surface. This device is taken as a prototype device.

The disadvantage of the prototype device is the small area of effective treatment of premises. (1-5 m ³ ).

The technical feature of the proposed nozzle is an increase in the area of effective disinfection with its small dimensions. Figure 1 schematically shows a method for obtaining a nonequilibrium (cold) plasma. Figures 2 and 3 schematically show a nozzle of 3 electrodes.

The proposed nozzle (1) consists of: a control unit (2) and an activation unit (3), a plastic case (8), which contains three copper discharge electrodes located in one plane in the form of rays distributed evenly relative to each other through 120 degrees, the distance between the centers of the electrodes is 20 mm, the control unit (2) is connected to the plastic case with power wires (7). The control unit (2) consists of a power source (4), the output is connected to the discharge control unit (5), which is connected via a step-up transformer (6) via power wires (7) to a plastic case (8) with a 3-discharge electrode.

During the operation of the nozzle, an electric discharge is formed by a system of electrodes, and active particles are formed in the discharge area.

The technology of ionization of 3-5% hydrogen peroxide solution with cold plasma is at the heart of the work of the “utility model for disinfection of closed spaces”.

Hydrogen peroxide itself is a disinfectant, but its effective use requires its high concentration and long exposure time. Cold plasma activates and greatly enhances its disinfecting properties. Even a weak solution treated with a plasma discharge is capable of completely disinfecting a room from pathogenic microorganisms in a few seconds.

The purpose of creating a useful model is to effectively disinfect closed rooms from pathogenic microorganisms.

The technical result, which is supposed to be obtained, consists in creating a nozzle for an aerosol spray for quick and complete disinfection of closed rooms.

The principle of operation of the utility model is as follows:

The atomized medium-dispersed aerosol passes through the cold plasma discharge between the electrodes opposite the atomizing nozzle. Thus, the aerosol passes through a cold plasma discharge. As a result, the aerosol becomes more active.

Thus, the presented disinfection nozzle has a number of advantages compared to its counterparts used in the NBC defense troops, namely:

- increased efficiency of disinfection work due to acceleration and simplification of the disinfection process;

- the ability to disinfect closed rooms and common areas with less labor costs.

- increased economic efficiency;

- increased effective area of disinfection;

These features allow the use of a useful model for more effective disinfection of enclosed spaces from pathogenic microorganisms.

Claims (1)

The nozzle for disinfection of closed rooms is a system consisting of a plastic case in which there are 3 discharge electrodes located in the same plane in the form of beams distributed evenly relative to each other through 120 °, the distance between the centers of the electrodes is 20 mm, power wires, a power source , a discharge control unit, a step-up transformer, which differs from similar devices in that it is more compact than other devices, and also due to the selected configuration, it allows to increase the efficiency of disinfection and disinfect electronic equipment with a lower concentration of disinfectant solution with the formation of active particles by the "cold plasma" method 3-5% solution of hydrogen peroxide.

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