BG3838U1 - Device for biological decontamination of air from viruses and bacteria - Google Patents

Abstract

The utility model relates to a device for decontamination of the air from viruses and bacteria indoors or in a flow cycle, as well as in the means of individual protection against the penetration of bacteria and viruses into the respiratory tract of the human body. The utility model will find application as part of the personal protective equipment, such as masks, gas masks and others and wherever sterile air is needed. The device consists of a power supply unit which is connected on the one side to a low voltage power supply unit, on the other side to a control circuit board and an external communication unit with two more terminals for power supply of UV radiation source and an infrared laser. The low voltage power supply unit is connected via a main board to a main processor to which is connected a quartz resonator . The main processor is connected via a digital-to-analog converter and an analog-to-digital converter to a current generator with terminals to electrodes. The control board comprises a processor which is connected to the main processor via an optron, which is connected to the current generator, a touch-screen display and an external communication unit via a second optron. The device, designed as a face mask against bacteria and viruses, consists of a three-dimensional body adapted to fit freely in the user's nose, mouth, chin and / or eyes with elastic ties for tying at the back of the user's head, whereby the disinfection package is hermetically and immovably attached to the body of the mask as a breather, and the disinfection package is connected via a cable to the device whose power supply is a set of lithium-ion or other batteries. The electric current, which is in the form of monopolar current pulses, is applied to the electrodes as the positive potential is of the galvanized grid electrode, and that of the silver-plated grid electrode - a negative one. The electric current can be in the form of monopolar current pulses and at the same time with a direct electric current. The electric current can be capable of both a fixed frequency with an accuracy of 0.01 Hz and a frequency variation in the range from 30 kHz to 900 kHz. The electric current can be a direct electric current without frequency variation. A positive potential (anode) of the galvanized grid electrode and a negative potential (cathode) of the galvanized grid electrode is always applied to the electrodes. The grid electrodes are dense networks (sieves) of thin threads of electrically conductive metal with a wire thickness of up to 1 mm and hole sizes of 1/1 mm up to 3/3 mm, as one of them is silver-plated and the other one is galvanized. The activated carbon filter is placed between the silver-plated and galvanized grid electrodes. The UV radiation generated by a UV source is forming a UV light "curtain" when emitted. The laser radiation is in the infrared range and forms an infrared laser "curtain". The electrodes with the filter, the UV source and the laser radiation source are covered in a frame and form a disinfection package. The device, by means of an external communication unit has remote access for control and communication via the Internet, mobile operator or other type of wired or wireless communication.

Description

Field of technology

The utility model relates to a device for decontamination of air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection against the penetration of bacteria and viruses into the respiratory tract of the human body and against their transmission from patient to people from the environment. . The utility model will be used as part of air conditioners and air exchange systems in aviation, for air disinfection in aircraft cabins, in the automotive industry, for air disinfection in car and bus compartments, trains and ships, for air disinfection in public buildings. , such as schools, theaters, hotels, halls and others, in industries requiring sterility in the pharmaceutical, food industry, as well as in personal protective equipment, such as masks and gas masks and others.

BACKGROUND OF THE INVENTION

Viruses and bacteria are one of the oldest forms of life. They are everywhere. Throughout its history, humanity has been in direct contact with bacteria and viruses. According to various calculations, only in the gastrointestinal tract of an adult there are about 2 kg of bacteria, which play an important role mainly for digestion, but also for other important activities in the human body.

Bacteria are unicellular organisms, with a cell wall, often covered with a mucous membrane that protects the cell from adverse external influences. Form - spherical (cocci), rod-shaped (bacilli, clostridia, spirochetes, pseudomonads), spiral (vibrios, spirals, spirochetes) and filamentous. Diameter 0.1-10 pm, length 1-20 pm (filamentous multicellular - 50-100 pm). They reproduce by division, rarely by budding. Bacteria play a very important role in human life, some of them are useful, but others - harmful, causing disease and even death. Pathogenic bacteria cause diseases in plants (bacterial diseases), animals and humans (anthrax, tuberculosis, brucellosis, etc.).

Viruses are microscopic pathogens that infect cells in living organisms. They are 15-350 μm in size, visible only with an electron microscope. They have a variety of shapes: spherical, rod-shaped, multi-walled prism, etc. Viruses cannot reproduce in artificial nutrient media, but only in living cells. Most often, viruses are spread by airborne droplets, but also by contact.

It is known that in the 1930s, the American scientist Royal Raymond Rife discovered that bacteria, viruses and parasites have their own electroresonant frequencies. If they are known, the pathogens can be destroyed by frequency electrical exposure.

One of the time-proven ways to protect ourselves from viruses and pathogenic bacteria is personal protective equipment and disinfection of the air we breathe.

Numerous technical solutions for air disinfection are known, as well as face mask filters, which are designed to provide protection against the spread of bacteria and viruses. Most often, these masks are disposable and they all contain at least one layer of filter cloth or nonwoven fabric.

U.S. Patent [1] US 2015283283 - a system for filtration and disinfection of air by plasma injection, in which the air passes through a plasma reactor unit, one-way, the air outlet is biologically decontaminated. Decontamination is performed by an electric current that ionizes the air to a plasma state and thus the plasma destroys viruses and bacteria. Disadvantages of the system [1] are the complex construction, high energy consumption and high voltage, which make it inapplicable for personal protective equipment, for example:

[2] RU 2700597 C1 - a method for photocatalytic decontamination of air, which is the spraying of a bactericidal preparation, in particular furanocoumarin or its derivatives, and irradiation of the aerosol with UV rays with a wavelength of 320-400 nm. In this way the indoor air is disinfected in the presence of people and / or animals, and the treatment is daily from 5 to 10

3838 IU min for 15 days. Disadvantages of the method [2] are the long treatment period, 15 days, as well as the use of chemical compounds such as furanocoumarin, which can pose a health hazard, which makes this method of limited application and not applicable to personal protective equipment.

U.S. Patent [3] US 7077139 B2 - disposable face mask. The solution includes a mask body covering the wearer's nose, mouth and chin and an extension associated with the mask body. The configuration is such that it surrounds the back of the user's head and covers the user's cheeks, jaw and ears. A significant part of the mask is formed of an elastic material treated with a repellent to prevent contaminants from entering or leaving the treated part of the extension.

WO 2011026515A1 [4] discloses a multilayer filtration material applicable to an air pollution face mask and consists of: a filter portion containing a filtration material adapted to cover the user's mouth and nostrils; an adapted segment for detachable arrangement around the user's head and adapted to align the filter segment above the user's mouth and nostrils, wherein the filter segment and the support segment are connected by a seam when aligning one or more exhalation valves located in the filter segment.

WO 2020013907 (A1) [5] - A face mask comprising an air permeable body comprising a filter material having a proximal and a distal surface, wherein the air permeable body is structurally configured for the proximal surface to cover the user's nose and mouth, when carried by the user, and the fan is configured to generate airflow through the filter material. (Explanation: A point closer to the body is proximal and farther from the body is distal).

Research [6] by an Iranian scientist shows that some viruses can be neutralized by direct electric current.

There are no known technical solutions for devices and face masks against bacteria and viruses that use together or separately direct electric current, electromagnetic pulses with quasi-resonant frequencies, silver and / or zinc ions, UV radiation, laser radiation and activated carbon for disposal purposes. of bacteria and viruses in the air.

Technical essence of the utility model

The purpose of the utility model is to offer a device with different configurations, including as a face mask filter, for air disinfection against bacteria and viruses, providing disposal of bacteria and viruses, using in combination, together or separately direct electric current, quasi-resonant electromagnetic pulses, silver and / or zinc ions, UV radiation, laser radiation and activated carbon filter.

The device for decontamination of air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection against penetration of bacteria and viruses into the respiratory tract of the human body and against their transmission from patient to people from the environment has several embodiments and consists of a power supply unit which is connected on the one hand to a low voltage power supply unit, on the other hand to a control board and an external communication unit and to two more terminals for powering a UV source and an infrared laser, depending on from the implementation. The low voltage power supply is connected via a main board to a main processor to which a quartz resonator is connected. The main processor is connected via a digital-to-analog converter and an analog-to-digital converter to a current generator with terminals to the grid electrodes, between which a filter with a layer of activated carbon is placed. The control board includes a processor, which is connected to the main processor via an optocoupler, and it is connected to the current generator, a touch screen display and an external communication unit via a second optocoupler. The lattice electrodes, between which a wet filter with a layer of activated carbon is placed, the source of UV radiation and the source of infrared laser radiation are covered in a frame as a single disinfection package. The disinfection package is sealed on the air exchange plate of air conditioning systems and air exchange

3838 UI systems, and its shape and dimensions will be consistent with the air exchange pits. When the flow of raw (infected) air passes through the disinfection package, the device generates direct and pulsed electric current with different characteristics in the frequency range from 30 kHz to 900 kHz, for various biological pathogens with quasi-resonant frequencies with the possibility of variation, UV and laser radiation. destroys them. In the case of personal protective equipment, the type of face masks, the shape and dimensions of the package will be in accordance with the dimensions of the breathing and filtering elements, and the power supply will be autonomous, with batteries.

The device for decontamination of the air from viruses and bacteria in the variant for individual protection is made as the face mask against bacteria and viruses is built as a spatial body, tailored so that it can freely fit the nose, mouth, chin and / or eyes. of the user, in which the disinfectant package is hermetically and immovably attached to the body of the mask, provided with elastic ties for tying at the back of the user's head. The disinfection package, in the same way as above, is connected to the power supply unit and through the grid electrodes from the main board - to the control board and the communication unit. Due to the fact that very small drops of water and saliva are released during exhalation, the filter with a layer of activated carbon between the electrodes will absorb the aerosol. The water absorbs the small droplets of viruses and makes electrical contact between the two networks. Electric current with and without quasi-resonant frequencies and the released silver and zinc ions destroy bacteria and viruses. When inhaled, bacteria and viruses pass through U V and laser light "curtains" and their survivors (if any) fall on the lattice electrodes and the activated carbon filter, where the current and silver and zinc ions destroy them. The disinfection package is connected to the main board, the control board and the communication unit. The source of their power supply is a set of lithium-ion or other batteries. The device, according to the utility model, performs biological decontamination of the air from bacteria and viruses.

Explanation of the attached figures

The utility model is explained with the help of the attached figures, representing an exemplary block diagram of the device for biological decontamination of air from viruses and bacteria (figure 1), structure of the disinfectant package (figure 2) and its implementation as a face mask against bacteria and viruses (figure 3). The attached figures do not in any way limit the forms and the way of execution of the utility model, but only explain its essence and show one of its applications.

Example of implementation of the utility model

According to an exemplary embodiment of the utility model, the device for biological decontamination of the air from viruses and bacteria (figure 1) consists of a power supply unit 1, which is connected on the one hand with a low voltage power supply unit 2, on the other hand with a control board 3 , with an external communication unit 4 and two more terminals supplying a UV source 16 and an infrared laser 17. The low voltage power supply unit 2 is connected via a main board 5 to a main processor 6 to which a quartz resonator 7 is connected. the processor 6 is connected via a digital-to-analog converter 8 and an analog-to-digital converter 9 to a current generator 10 with terminals to the grid electrodes 11. The control board 3 includes a processor 12 which is connected to the main processor 6 by an optocoupler 14 by an optocoupler 14 with current generator 10 with touch screen display 15 and with external communication unit 4. The grating electrodes 11, the UV radiation source 16 and the infrared laser 17 are the main components of des. the infectious package 18.

The disinfection package 18 (figure 2) consists of a frame 19 in which the UV radiation source 16, the infrared laser 17 and the grating electrodes 11 are suitably placed in combination, together or separately, with the active layer filter 20 placed between them. charcoal.

The device for decontamination of the air from viruses and bacteria in the variant for individual protection is made as a face mask against bacteria and viruses (figure 3), which consists of a spatial body 21, tailored so that it can freely fit the nose, the user's mouth, chin and / or eyes with elastic ties for tying at the back of the user's head, the disinfectant package 18 being hermetically and immovably attached to the body 21 of the mask as a breather,

3838 UI and the disinfection package 18 is connected via a cable to the device 22, the power supply of which is a set of lithium-ion or other batteries.

According to the utility model, the device for decontamination of the air from viruses and bacteria indoors or in a flow cycle works as follows.

Externally powered power supply unit 1 converts the voltage and supplies a control board 3, an external communication unit 4, a UV source 16, an infrared laser 17 and a low voltage unit 2, which in turn supplies the control board 5 and device operation. When setting through the touch screen display 15 the: types of current, duration of operation, frequency and / or frequency variation in the quasi-resonant range, this information enters the processor 12, from which through the optocoupler 13 enters the main processor 6 which receives the set frequency of quartz resonator 7. The main processor 6 supplies information through a digital-to-analog converter 8 on the shape, magnitude and frequency of the current pulse to the current generator 10. By feedback through an optocoupler 14 to the processor 12 from the control board 3 the current generator 10 supplies information about checking the set with the generated parameters of the pulse. Also via feedback, by means of an analog-to-digital converter 9 from the current generator 10, the information enters the main processor 6. After validating the accuracy of the pulse data from both processor 12 and the main processor 6, the latter starts via digital-to-analog converter 8. the supply of the current pulse from the current generator 10 to the grid electrodes 11, which in turn are pre-placed as a main part of the disinfection package 18. In this way the current circuit is closed and the process proceeds until the time set at the beginning is completed. The control board 3 on which the processor 12 is mounted is connected to an external communication unit 4, which allows remote control and management of the device via the Internet, mobile operator or other type of wired or wireless communication. The disinfection package 18 is placed hermetically on the air exchange cake of the air conditioning and air exchange systems, the shape and dimensions of which will be in accordance with the air exchange pies, or on the body 21 of the mask as a breather. When the flow of raw (infected) air passes through the disinfection package 18, the device generates direct and pulsed electric current with different characteristics in the frequency range from 30 kHz to 900 kHz, for different biological pathogens with quasi-resonant frequencies with the possibility of variation, UV and laser radiation. by destroying them.

When using electric current in the form of monopolar current pulses with magnitude from 0.2 mA to 10 mA with rapidly fluctuating frequency variation in the range from 30 kHz to 900 kHz, a positive potential of the galvanized lattice electrode is applied to the electrodes, and the silver-plated lattice electrode - negative. This type of electric current is applicable for the destruction of viruses and bacteria with quasi-resonant frequencies and electricity.

The electric current in the form of monopolar current pulses can be capable of both a fixed frequency with an accuracy of 0.01 Hz and a frequency variation in the entire range from 30 kHz to 900 kHz. This allows action for both specific pathogens and the full spectrum of bacteria and viruses.

When using an electric current, which is a direct electric current, without frequency variation, in which the magnitude of the electric current is from 0.2 mA to 10 mA, a positive potential of the galvanized lattice electrode and a negative potential of the silver-plated lattice electrode is applied to the electrodes. This type of electric current is applicable in the variant of destruction of viruses and bacteria by emission of silver and zinc ions released from the electrodes and electricity.

When using electric current, which is a combination of electric current with monopolar rectangular current pulses with rapidly fluctuating frequency variation in the range from 30 kHz to 900 kHz and at the same time with direct electric current, both types of electric current have a value of 0.2 mA up to 10 mA and a positive potential is applied to the electrodes of the galvanized lattice electrode, and to the silver-plated lattice electrode - negative, as one type of electric current is pulsed and the other constant. This type of electric current is applicable in the variant of destruction of viruses and bacteria simultaneously by emission of silver and zinc ions released from the electrodes and destruction of viruses and bacteria with quasi-resonant frequencies and electricity.

3838 UI

When using electric current, it is led to lattice electrodes, which are dense networks (sieves) of thin threads of electrically conductive metal with a wire thickness of up to 3 mm and hole sizes from 1/1 mm to 3/3 mm, one of which is silver-plated. , and the other galvanized, where each of the two networks is connected to a different pole of electric current, silver-plated with the negative (cathode) and galvanized with the positive (anode). This type of electrodes are the source of silver and zinc ions with proven disinfectant action.

When using the activated carbon filter, which is a "cushion" of woven or nonwoven textile made of natural fibers filled with powdered activated carbon, the filter is placed between the silver-plated and galvanized grid electrodes and is a conductor of electric current and absorber. The filter is a consumable with the possibility of regeneration.

When using UV radiation, it can be generated by a U V lamp located in a closed vessel with flow inlet and outlet for the treated air or a semiconductor UV diode with a flat waveguide emitter, forming a U V light curtain. This type of radiation is applicable in the destruction of viruses and bacteria by UV radiation.

When using the laser radiation, which is in the infrared range, it can be of different types of laser emitters, including semiconductor lasers, and the radiation through a flat wave emitter forms an infrared laser "curtain". This type of radiation is applicable to the destruction of viruses and bacteria by laser radiation.

The device, in its embodiments, the utility model decontaminates the air from viruses and bacteria indoors or in a flow cycle by a combination of effects, together or separately, with electromagnetic pulses with quasi-resonant frequencies, direct electric current, silver and / or zinc ions. , UV radiation, Laser radiation and activated carbon filter.

The external communication unit allows remote access for control and communication via the Internet, mobile operator or other type of wired or wireless communication.

Advantages of the utility model

The described device, in its variant embodiments, allows extremely wide application, flexibility and a wide range of impacts, which attacks the air environment in which bacteria and viruses are located. The utility model is applicable both in epidemics of various bacteria and viruses and in the daily practice of medical institutions. Especially for the needs of coronavirus protection agents COVID-19, the device can be easily manufactured in industrial quantities.

Claims (4)

3838 UI Claims Device for decontamination of air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection, characterized in that it consists of a power supply unit (1), which is connected on one side to a power supply unit with low voltage (2), on the other hand with a control board (3), with an external communication unit (4) and with two other terminals supplying a UV radiation source (16) and an infrared laser (17), as the power supply unit with low voltage (2) is connected via a main board (5) to a main processor (6), to which a quartz resonator (7) is connected, and the main processor (6) is connected via a digital-to-analog converter (8) and an analog-to-digital a converter (9) to a current generator (10) with terminals to the grid electrodes (11), and the control board (3) includes a processor (12), which is connected to the main processor (6) by an optocoupler (13) by an optocoupler (13) (14) with current generator (10) with touch screen display (15) and with external communication unit (4), such as grid electros give birth (11), the source of UV radiation (16) and the infrared laser (17) are the main components of the disinfecting package (18), which can be attached hermetically and immovably to the body (21) of the mask, as a breather, and the disinfecting package (18) is connected by cable to the device (22) for decontamination of the air from viruses and bacteria, whose power supply is a set of lithium-ion or other batteries. Device for decontamination of air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection according to claim 1, characterized in that the grating electrodes (11), between which a filter (20) with a layer of activated carbon, the source of UV radiation (16) and the source of infrared laser radiation (17), in combination, together or separately form a single disinfection package (18), covered in a frame (19). Device for decontamination of the air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection according to claims 1 and 2, characterized in that it is designed as a face mask against bacteria and viruses, which is consists of a three-dimensional body (21) adapted to fit freely in the wearer's nose, mouth, chin and / or eyes with elastic ties for tying at the back of the wearer's head, the disinfection package (18) being hermetically sealed and fixed to the body (21) of the mask as a breather, and the disinfection package (18) is connected by cable to the device (22) for decontamination of the air from viruses and bacteria, whose power supply is a set of lithium-ion or other batteries. Device for decontamination of air from viruses and bacteria indoors or in a flow cycle, as well as for individual protection according to claims 1 to 3, characterized in that the external communication unit (4) has a remote control access and communication via the Internet, a mobile operator or other type of wired or wireless communication.