RU2746875C1 - Barrier disinfection system and method of barrier disinfection of objects contaminated with pathogens by creating downward or upward flow of gas-air mixture - Google Patents

Abstract

FIELD: medical technology.

SUBSTANCE: group of inventions relates to medical technology, namely to a system for barrier disinfection of objects contaminated with pathogens by creating a downward or upward flow of a gas-air mixture and a method for barrier disinfection of objects contaminated with pathogens by creating a downward or upward flow of a gas-air mixture. The system includes a barrier disinfection device containing a case with a diffuser designed to form a vortex-free flow of a gas-air mixture, and a control unit connected to a plasma emitter designed to generate ozone or cold plasma from a plasma-forming agent, and an air fan designed to form an air flow of the required power located in the specified case. The system has at least one door position sensor and/or a volumetric presence sensor connected to the barrier disinfection device, which can be activated by a signal sent to the control unit of the barrier disinfection device, and a subsystem for notifying about the process of ozone generation and ozone presence in the supplied gas-air mixture. The system is made with the possibility of its installation in the buffer zone of buildings, which is an input group with at least double sheets of sliding or swing doors, or rotary doors to form the specified device for barrier disinfection of the gas-air mixture flow to objects moving through the created flow. The system contains a sensor of output monitoring of the ozone concentration in the gas-air mixture, installed in the diffuser of the barrier disinfection device, and a sensor of the ozone concentration in the buffer zone, located within the boundaries of the input group of the buffer zone. The sensors are connected to the control unit of the barrier disinfection device. The sensors are designed to continuously measure the ozone concentration and generate information signals for the control unit of the barrier disinfection device, which is designed to compare the received signals with the threshold value. If the ozone concentration level is exceeded, the control unit sends a control signal to the plasma emitter about the temporary termination of ozone generation or cold plasma. The method includes the stages at which the system is provided: when the object opens the door of the buffer zone, a signal is sent to the control unit of the device from the door position sensor or volume sensor to turn on; the control unit of the disinfection device sends a signal to the notification subsystem about the ozone generation process. The method includes steps in which the plasma emitter generates ozone or cold plasma. The method includes steps in which the control unit of the disinfection device sends a signal to the notification subsystem about the presence of ozone in the supplied gas-air mixture. The method includes steps in which a downward or upward flow of a gas-air mixture is formed, which affects objects moving through the created flow. The method includes steps in which continuous measurement of the ozone concentration is carried out using a sensor of output monitoring of the ozone concentration in the gas-air mixture, installed in the diffuser of the device for barrier disinfection and the ozone concentration in the buffer zone, and using a sensor of the ozone concentration in the buffer zone located within the boundaries of the input group of the buffer zone. The signals from the sensors are transmitted to the control unit of the barrier disinfection device. The method includes steps in which, when the ozone concentration level is exceeded, the generation of ozone or cold plasma is temporarily stopped.

EFFECT: expansion of functionality while simplifying the design.

10 cl, 4 dwg

Description

The invention relates to a disinfecting device for use in various rooms and is intended for disinfection (and disinsection) of people, animals, clothing (or other items), in particular intended for surface treatment, for the purpose of biological cleaning (disinfection) of outerwear, open skin, carry-on luggage, etc.

From the prior art known air-heat curtain contains an air box, which is associated with a fan, uniform distribution air ducts equipped with a slotted nozzle with guide plates, a device for heating the air with automatic control. As a device for heating the air, the curtain is equipped with a block of ramp burners installed directly in the air duct, while the number of burners in the block is inversely proportional to the nominal power of one burner and is determined by the formula n≤ 11.7 μ F _u n _u (343 -T _n ) / Q _nom , where μ is the slot flow rate, F _u is the cross-sectional area of the slot, n _u is the number of slots in the slotted nozzle, T _n is the temperature of the heated air, Q _nom is the nominal performance of the ramp burner. The technical result of the invention is the creation of a thermal curtain with autonomous heating of the supplied air directly in the uniform distribution duct or in the air duct (RU 2256854 July 20, 2005).

From the prior art, an installation for disinfection and deodorization with ozone is known, comprising a sealed cabinet with a lockable door, a filter and an exhaust fan located outside the cabinet, and the filter is fixed on the top of the cabinet and connected to an ozone generator located inside the cabinet, and the exhaust fan is located in the exhaust pipe, connected to the cabinet cavity at its bottom. In the upper part of the cabinet, under the ozone generator, there is an ozone-air mixture splitter made in the form of a fine stainless steel mesh, and in the lower part of the cabinet, above the opening with the entrance to the exhaust pipe, there is a destructor made in the form of a flat package over the entire cross-sectional area of the cabinet made of permeable for gas material filled with an ozone catalyst placed on the grate. Between the splitter and the destructor there are horizontally arranged shelves permeable to the ozone-air mixture with the possibility of changing their position along the height of the cabinet (RU 174013 U1 09/25/2017).

It is also known a device for the distribution of ozone, used in an installation for disinfection of bedding, clothing, shoes and equipment for various purposes, including pipelines located at a distance from each other and made with the possibility of placing the above items on them, in each pipeline there are perforated sections formed with the possibility of directing the air enriched with ozone from the ozone generator, which is available in the said disinfection installation, to the objects placed on them, characterized in that the pipelines are fixed on a base in which through holes are made coaxially with the pipelines, while the base is made with the possibility of it collapsible fixation together with pipelines inside the working chamber of the mentioned installation for disinfection at a distance from one of its walls (RU158995 01/20/2016).

The disadvantages of these technical solutions are the complexity and cumbersomeness of the structure, limited functionality, which consists in the impossibility of combining in one technical solution the functions associated with the disinfection of objects and at the same time creating a barrier to limit air exchange between the internal and external zones of the premises without their constructive change.

The objective of the claimed invention is to eliminate the disadvantages of analogs.

The technical result consists in expanding the functionality while simplifying the design.

The specified technical result is achieved in a system for barrier disinfection objects contaminated with pathogens by creating a descending or ascending flow of a gas-air mixture, including a device for barrier disinfection, comprising a housing with a diffuser configured to form a non-vortex flow of a gas-air mixture and placed in said housing by a control unit associated with a plasma emitter configured to generate ozone or cold plasma from a plasma-forming agent and an air fan configured to generate an air flow of the required power, as well as associated with a device for barrier disinfection, at least one door position sensor and / or volumetric presence sensor, configured to send a signal to switching on the device for barrier disinfection coming to the control unit and the notification subsystem about the ozone generation process and the presence of ozone in the supplied gas-air mixture, while the system is made with the possibility of its installation in the buffer zones e buildings, which is an entrance group with at least double canvases of sliding or swing doors, or rotary doors for the formation by the specified device for barrier disinfection of a narrowly directed flow of a gas-air mixture to objects moved through the created flow in order to disinfect them and clean them from contamination by pathogens, as well as preventing the spread and movement of pathogens between rooms separated by the specified buffer zone.

The device for barrier disinfection is made with the ability to disinfect not only open areas contaminated with pathogens, but also the penetration of the gas-air mixture into the hiding of the cavity and porous materials.

The device for disinfection is located vertically or horizontally, within the volume of the entrance group of sliding, hinged or buffer zones of rotary doors.

Turning on and off the flow of the gas-air mixture occurs depending on the position of the door leaf of the opening or the state of the entrance group.

A plasma emitter generates ozone from atmospheric oxygen.

The control unit is configured to control the ozone dose level by controlling the generation time,

The system contains a sensor for the output control of the ozone concentration in the gas-air mixture and / or the ozone concentration in the buffer zone associated with the control unit barrier disinfection devices.

To change the settings of the device for barrier disinfection, it is reprogrammed by connecting it via wired or wireless communication to the programming device.

The specified technical result is also achieved in the method of barrier disinfection of objects contaminated with pathogens by creating a descending or ascending flow of a gas-air mixture, including the steps of: creating a system for barrier disinfection in the buffer zone of buildings, which is an entrance group with at least double door leaves or rotary doors; when the object opens the door of the buffer zone, a signal to turn on is sent to the control unit of the device for disinfection from the door position sensor and / or the volumetric sensor; the control unit of the device for barrier disinfection sends a signal to the notification subsystem of the ozone generation process, generates ozone or cold plasma with a plasma emitter; the control unit of the barrier disinfection device sends a signal to the notification subsystem about the presence of ozone in the supplied gas-air mixture; form a narrowly directed downward or upward flow of the gas-air mixture and act on objects moving through the created flow in order to disinfect and clean them from contamination by pathogens, as well as to prevent the spread and movement of pathogens between rooms separated by the specified buffer zone.

The device for barrier disinfection is installed within the volume of the entrance group of sliding, swing or buffer zones of rotary doors.

The control unit of the barrier disinfection device produces a metered dose of ozone via the electrode system for a predetermined period of time.

Continuous measurement of the ozone concentration is carried out using a sensor of the output control of the ozone concentration in the gas-air mixture and / or the ozone concentration in the buffer zone, the signals from which are transmitted to the control unit of the barrier disinfection device.

When the level of ozone concentration is exceeded, the generation of ozone or cold plasma is temporarily stopped.

To change the settings of the device for barrier disinfection, it is reprogrammed by connecting it via wired or wireless communication to the programming device.

FIG. 1 is a diagram of a disinfection device.

FIG. 2 - direction and shape of gas-air or (plasma-air) flow.

FIG. 3 - sequence of operation of the system for barrier disinfection.

FIG. 4 - embodiments of the device in the buffer zone.

In our climatic zone, projects of all public and multi-apartment buildings, in order to increase energy efficiency, provide for buffer zones ("thermal" chambers) made in the form of entrance groups with double or more door leaves or rotary (rotating) entrance groups to restrict air exchange between the internal and external zone in conditions of significant temperature difference to reduce heat loss during heating (Fig. 4).

These structural elements of public and residential apartment buildings allow them to be used not only for the main purpose - to increase energy efficiency, but also to give them an additional function - the organization of a disinfection barrier to ensure the interruption of the spread of infections and other pathogens as a result of preventive disinfection.

The design (layout) of the barrier disinfection system allows its use in the current conditions of limited space for the organization of preventive disinfection zones, without re-equipment of existing entrance groups (re-equipment / re-equipment of existing technological premises: thermal chambers, security gateways) structurally built into public and residential buildings without separation separate rooms (spaces) for the installation of other equipment (tunnel, frame, etc.) with a similar purpose, which significantly reduces the economic burden on the end user.

In this application, disinfection means a set of measures aimed at destroying pathogens of infectious diseases and destroying toxins on objects in the external environment to prevent them from getting on the skin, mucous and wound surfaces, respiratory tract, etc. Disinfection may not completely destroy them, but reduces the amount microorganisms to an acceptable level. Preventive disinfection is carried out constantly, regardless of the epidemic situation.

The principle of operation of the claimed invention

The basic principle of operation in a system for barrier disinfection is to create a "cut-off" stream (Fig. 2) of a gas-air mixture or a stream of "cold plasma" in the buffer zone by the barrier disinfection device, at the intersection of which (stream) the effect of local "blowing" of the object is achieved crossing it (stream) for the purpose of its (object) preventive disinfection.

Due to the fact that the system for barrier disinfection has executive and control mechanisms and the method of barrier disinfection does not imply continuous operation of the device for disinfection, then a directed flow of the gas-air mixture in the alignment of the entrance group of the buffer zone (door frame, physical circuit dividing the room) is created only when active movement through the active perimeter (Figs. 3b - 3d). In this case, the signal to turn on the system for disinfection (pulse circuit) is the fixing by the door position sensor or volume sensor when the object opens the buffer zone door. And the plasma emitter of the barrier disinfection device produces a metered dose of ozone during a predetermined period of time set during the initial programming of the device, the control unit of the barrier disinfection device, which is configured to control the ozone dose level by controlling the generation time.

The specified signal to turn on is transmitted to the control unit of the device for barrier disinfection (Fig. 1), then, the control unit of the device for disinfection sends a signal to the notification subsystem, which is light and / or sound indicators, about the ozone generation process and the plasma emitter of the barrier disinfection device generates ozone or cold plasma from a plasma-forming agent that is a component of atmospheric air.

A fundamental feature of the claimed invention is the use of a disinfectant, which is a "different, high-energy state" of substances that make up the ambient air (oxygen, water vapor), namely ozone, hydrogen peroxide, which are not stable chemical compounds, but an ionized gas, which over time, it loses its high-energy state and within a not significant time interval (from 10 to 20 minutes) returns to its original state (atmospheric oxygen, water vapor) without the formation, requiring forced waste disposal, which in turn provides a high degree of environmental friendliness and economic operation. In addition, acting on objects with a gas-air mixture (ionized gas) capable of spreading throughout the entire space available to it, filling it evenly, then not only open areas contaminated with pathogens are disinfected, but also the penetration of the gas-air mixture into the cavity and porous materials.

After completion of the generation of ozone or cold plasma, the control unit of the barrier disinfection device sends a signal to the warning system about the presence of ozone in the supplied gas-air mixture. And then a narrowly directed downward or upward flow of the gas-air mixture is formed and its effect directly on objects moved through the created flow for the purpose of disinfecting and cleaning them from pathogen contamination, as well as preventing the spread and movement of pathogens between rooms separated by the specified buffer zone.

Additionally, the system for barrier disinfection contains a sensor for the output control of the ozone concentration in the gas-air mixture installed in the diffuser of the barrier disinfection device and / or a sensor for the ozone concentration in the buffer zone located within the boundaries of the inlet group of the buffer zone. The sensors continuously measure the ozone concentration and generate information signals, which are transmitted to the control unit of the barrier disinfection device, which compares the received signals with the threshold value and, when the ozone concentration level is exceeded, the control unit sends a control signal to the plasma emitter about the temporary cessation of ozone generation or cold plasma.

Claims (18)

1. A system for barrier disinfection of objects contaminated with pathogens by creating a descending or ascending flow of a gas-air mixture, including a device for barrier disinfection, comprising a housing with a diffuser configured to form a non-vortex flow of a gas-air mixture, and a control unit located in said housing associated with a plasma emitter configured to generate ozone or cold plasma from a plasma-forming agent, and an air fan configured to generate an air flow of the required power, as well as at least one door position sensor and / or volumetric presence sensor associated with the barrier disinfection device, made with the possibility of sending a signal to turn on the device for barrier disinfection, coming to the control unit, and a subsystem for alerting about the ozone generation process and the presence of ozone in the supplied gas-air mixture, while the system is made with the possibility its installation in the buffer zone of buildings, which is an entrance group with at least double canvases of sliding or swing doors or rotary doors for the formation of the specified device for barrier disinfection of the flow of the gas-air mixture to objects moved through the created flow, while the system contains an output control sensor concentration of ozone in the gas-air mixture, installed in the diffuser of the device for barrier disinfection, and the ozone concentration sensor in the buffer zone located within the boundaries of the input group of the buffer zone, while the sensors are connected to the control unit of the barrier disinfection device, while the sensors are made with the possibility of continuous measurement concentration of ozone and the formation of information signals for the control unit of the barrier disinfection device, made with the possibility of comparing the received signals with a threshold value and when the ozone concentration level is exceeded, the control unit is supplied I notified the plasma emitter about the temporary cessation of the generation of ozone or cold plasma. 2. The system according to claim 1, characterized in that the device for barrier disinfection is designed to disinfect not only open areas contaminated with pathogens, but also the penetration of a gas-air mixture into the hiding of the cavity and porous materials. 3. The system of claim. 1, characterized in that the device for barrier disinfection is located vertically or horizontally within the volume of the entrance group of sliding, swing or buffer zone of the rotary doors. 4. The system according to claim 1, characterized in that the switching on and off the flow of the gas-air mixture occurs depending on the opening or closing of the door leaf of the opening. 5. The system of claim. 1, characterized in that the plasma emitter is configured to generate ozone from atmospheric oxygen. 6. The system of claim. 1, characterized in that the control unit is configured to control the ozone dose level by controlling the generation time. 7. The system of claim. 1, characterized by the ability to change the settings of the device for barrier disinfection and the ability to perform its reprogramming by connecting via wired or wireless communication to the programming device. 8. A method of barrier disinfection of objects contaminated with pathogens by creating a descending or ascending flow of a gas-air mixture, including the stages at which: - provide a system for barrier disinfection in the buffer zone of buildings, which is an entrance group with at least double leafs of sliding or swing doors or rotary doors; - when the object opens the door of the buffer zone, a signal to turn on is sent to the control unit of the device for disinfection from the door position sensor or volumetric sensor; - the control unit of the disinfection device sends a signal to the notification subsystem about the ozone generation process; - the generation of ozone or cold plasma is carried out by a plasma emitter; - the control unit of the disinfection device sends a signal to the notification subsystem about the presence of ozone in the supplied gas-air mixture; - form a descending or ascending flow of a gas-air mixture and act on objects moving through the created flow; - carry out continuous measurement of the ozone concentration using the sensor of the output control of the ozone concentration in the gas-air mixture installed in the diffuser of the device for barrier disinfection, and the ozone concentration in the buffer zone using the ozone concentration sensor in the buffer zone located within the boundaries of the inlet group of the buffer zone, while signals from sensors are transmitted to the control unit of the barrier disinfection device; - when the level of ozone concentration is exceeded, the generation of ozone or cold plasma is temporarily stopped. 9. The method according to claim 8, characterized in that the device for barrier disinfection is installed within the volume of the entrance group of sliding, swing or buffer zone of the rotary doors. 10. A method according to claim 8, characterized in that the plasma emitter of the disinfection device produces a metered dose of ozone during a predetermined period of time by means of a control unit configured to control the ozone dose level by controlling the generation time.

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