RU201413U1 - Device for obtaining a disinfectant - Google Patents

Abstract

The utility model relates to the field of disinfection and sanitation, namely to devices for obtaining a disinfectant, and can be used for disinfection (sterilization) of places where a person is present (premises for various purposes, vehicles, etc.), food products and others. for obtaining a disinfectant, including a power source, a container for an initial solution, a liquid pump, an air pump, contains a control module and a cone-shaped volumetric cold plasma reactor, made with diverging discharge electrodes, a spray, the first input of which is connected to the output of the liquid pump, and the second input - with the output of the air pump, and a high-voltage pulse generating unit connected to the control module. The technical result of the utility model is to increase the efficiency, productivity of the production of a disinfectant, as well as the safety of the device.

Description

The utility model relates to the field of disinfection and sanitation, namely to devices for obtaining a disinfectant, and can be used for disinfection (sterilization) of places where a person is present (premises for various purposes, vehicles, etc.), food products, and others.

A device for obtaining a disinfectant liquid (US Patent No. 7008592, publ. 03/07/2006) is known from the prior art, which includes a vessel for a working liquid, a liquid pump, a liquid sprayer, a pulsed high-voltage power supply, and two discharge electrodes. Disinfection is achieved by the action of droplets of an activated liquid (active mist) on the treated surfaces. In the known device, an electrical discharge is carried out between two electrodes.

The disadvantage of the known device is the low efficiency of treatment of the jet with an electric discharge, since the discharge area is less than the diameter of the spray of the sprayed liquid, and not all of the liquid is activated. Another disadvantage is the lack of air in the discharge area, since the mass of the sprayed liquid in the discharge area is much larger than the air mass.

Also known is a device for obtaining a disinfectant (RF Patent No. 2670654, publ. 24.10.2018), including a vessel for a working fluid, a liquid pump, an air pump, a liquid nebulizer, a pulsed high-voltage power supply, a discharge control unit and a system of three or four electrodes. Disinfection is achieved by the action of droplets of an activated liquid (active mist) on the treated surfaces. An electric discharge is carried out in a system of three or four electrodes, which generates a rotating plasma discharge.

The disadvantages of the device are the insufficient efficiency of the jet treatment with an electric discharge, due to the design features of the liquid atomizer and the applied system of electrodes, as a result of which not all of the liquid is activated. In addition, there is a risk in such a device "Dry" plasma combustion (in the absence of a water-air mixture at the outlet of the liquid atomizer), since there is no synchronization of the operation modes of the air and liquid pump with the discharge control unit.

The task to be solved by the utility model is the development of an improved device for obtaining a disinfectant, devoid of the disadvantages of known analogues, as well as the expansion of the arsenal of technical means for the specified purpose.

The technical result of the utility model is to increase the efficiency, productivity of the production of a disinfectant, as well as the safety of the device .

The technical result is achieved in that a device for producing a disinfectant, including a power source, a container for an initial solution, a liquid pump, an air pump, contains a control module and a cone-shaped volumetric cold plasma reactor, made with diverging discharge electrodes, a spray, the first input of which is connected to the outlet of the liquid pump, and the second inlet - with the outlet of the air pump, and a high-voltage pulse generating unit connected to the control module.

It is advisable that the cone-shaped bulk cold plasma reactor contains at least three diverging discharge electrodes.

It is expedient that the first output of the control module is connected to the input of the liquid pump, the second output to the input of the air pump, and the third output to the unit for generating high-voltage pulses of the cone-shaped bulk cold plasma reactor.

It is advisable that the device contains an autonomous power source.

It is advisable that the power of the electric discharge in the bulk cold plasma reactor was from 150 W to 200 W, and the rate of blowing the liquid through the nebulizer was from 20 ml / min to 60 ml / min, preferably - from 30 ml / min to 60 ml / min.

The utility model is illustrated by drawings.

FIG. 1 shows a block diagram of the device.

FIG. 2 shows the design of a cone-shaped bulk cold plasma reactor.

In a preferred embodiment, the device for obtaining a disinfectant is a portable wireless monoblock with an autonomous power source (battery) 1. The first output of the autonomous power source 1 is connected to the input of the voltage converter for controlling the electronics 2, and the second to the voltage converter for the liquid feed pump initial solution 5 and air pump 6. The output of the voltage converter for controlling the electronics 2 is connected to the input of the microprocessor control module 4.

The first output of the control module 4 is connected to the input of the liquid pump 5, the second output is connected to the input of the air pump 6, the third output is connected to the cone-shaped volumetric cold plasma reactor 8.

The reactor of a cone-shaped volumetric cold plasma 8 has a housing 11 with a system of three or more diverging discharge electrodes 12, a spray nozzle of 2-phase mixing 13, the first inlet of which is connected to the outlet of the liquid feed pump 5, and the second inlet to the outlet of the air pump 6 , and a block for generating high-voltage pulses 7, connected to the control module 4. The electrodes have a knife-like shape with beveled and rounded edges. Electrode material - tungsten or stainless steel. If a system of three discharge electrodes is used in the reactor, they can be distributed relative to each other through 120 °. The electrodes are located in the reactor body 8 in such a way that the discharge arising between them is in the perpendicular plane of the passing flow of the sprayed liquid, thereby ensuring the passage of the sprayed liquid through the plasma formation 14 between the electrodes and form an activated sprayed disinfectant 9.

The container with the initial solution 10 is connected to the inlet of the liquid pump 5. As a working solution in the device, for example, a hydrogen peroxide solution can be used.

The device works as follows.

The working solution is supplied to the spray nozzle 13 from the container with the initial solution 10 by means of the liquid pump 5. At the same time, air under pressure is supplied to the spray nozzle 13 by the air pump 6. The sprayed working solution passes through the cone-shaped volumetric region of the discharge formed by a system of three or more diverging electrodes 12 in the bulk cold plasma reactor 8. Active particles are formed in the cone-shaped volumetric region of the discharge.

The control module 4 synchronizes the operating modes of the air 6 and liquid 5 pumps with the high-voltage pulse generating unit 7. The control module 4, by monitoring the working pressure of the air flow at the inlet of the water-air mixture nozzle 13, generates signals to control the operating modes of the high-voltage pulse generating unit 7 and the liquid pump 5. The control module 4 provides the formation of such a cyclogram for controlling the operating modes of the device, including when the device is turned on and off, which prevents the possibility of "ignition" (support) of an electric discharge in the reactor of a cone-shaped volumetric cold plasma 8 in the case when there is no water-air mixture 13 at the nozzle inlet working pressure of the air stream.

To optimize the spatio-temporal characteristics of the processing of the initial working solution in the bulk cold plasma reactor 8, a cone-shaped volumetric electric discharge is formed due to the special design of a system of three or more diverging discharge electrodes 12, to which a high-frequency voltage with an amplitude of up to 30 kV is supplied through the high-voltage pulse generating unit 7. The electric discharge power should be between 150W and 200W. In this case, the liquid flow through the nebulizer 13 at a given discharge power should be 20-30 ml / min, more preferably 30-60 ml / min. Operating voltages and currents are set by the high-voltage pulse generating unit 7 in such a way that a nanosecond electric discharge occurs between the electrodes 12.

An electric discharge mode is chosen, in which the optimal concentration of hydrogen peroxide is related to the discharge power and the rate of liquid blowing through the atomizer.

The implementation of a device for obtaining a disinfectant according to a fundamentally new layout scheme in the form of a portable wireless monoblock with an autonomous power source provides an increase in efficiency, productivity of the production of a disinfectant, as well as the safety of the device, while reducing the weight and size and energy characteristics of the device.

Claims (6)

1. A device for obtaining a disinfecting agent, including a power source, a container for an initial solution, a liquid pump, an air pump, characterized in that it contains a control module and a cone-shaped volumetric cold plasma reactor, made with diverging discharge electrodes, an atomizer, the first input of which is connected to the outlet of the liquid pump, and the second inlet - with the outlet of the air pump, and the high-voltage pulse generation unit connected to the control module, while the diverging discharge electrodes are located in the reactor body of the cone-shaped volumetric cold plasma in such a way that the passage of the sprayed liquid through the cone-shaped volumetric region of the discharge formed by electrodes, wherein the first output of the control module is connected to the input of the liquid pump, and the second output of the control module is connected to the input of the air pump. 2. A device for obtaining a disinfectant according to claim 1, characterized in that the cone-shaped bulk cold plasma reactor contains at least three diverging discharge electrodes. 3. A device for obtaining a disinfectant according to claim 1 or 2, characterized in that it contains an autonomous power source. 4. A device for obtaining a disinfectant according to any one of paragraphs. 1-3, characterized in that the power of the electric discharge in the bulk cold plasma reactor is from 150 W to 200 W. 5. A device for obtaining a disinfectant according to any one of paragraphs. 1-4, characterized in that the flow rate of the liquid through the nebulizer is from 20 ml / min to 60 ml / min. 6. A device for obtaining a disinfectant according to claim 5, characterized in that the rate of blowing the liquid through the nebulizer is from 30 ml / min to 60 ml / min.

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