RU2737276C1 - Method and device for remote automatic disinfection of mobile means - Google Patents

Abstract

FIELD: sanitary treatment.

SUBSTANCE: group of inventions relates to sanitary treatment and, in particular, to methods of sanitary treatment of mobile means, agricultural equipment and transport, as well as for public transport with possibility of integration into "Smart City" system. In the method, the disinfection process is controlled from a remote control room through control and communication units integrated with a control station, controlling the disinfectant spraying or ozonizing, epidemiological state inside the mobile means is monitored by sensors of microbiological state of air, window position detector is used to determine the position of windows of the mobile means, and in the closed state of doors and windows in the absence of a passenger, remote automatic disinfection is performed inside the mobile means. Device for remote automatic disinfection of mobile means is equipped with sensor of microbiological state of air, window position sensor and communication unit installed inside mobile means, wherein air microbiological state sensor, windows position sensor, passenger detection device, inductive door state switch are connected through a communication unit to a remote control room, which is connected to the control unit via a communication unit, and the control unit is connected to a disinfection device.

EFFECT: disinfection of mobile facilities for transportation of passengers and cargoes.

2 cl, 2 dwg

Description

The invention relates to the field of sanitization and, in particular, to methods for sanitizing mobile vehicles, sanitizing agricultural machinery and transport, as well as for public transport with the possibility of integration into the Smart City system, and is intended for disinfection and rapid elimination of pathogenic viruses, bacteria and microorganisms in mobile devices.

Known methods of air disinfection with ultraviolet bactericidal irradiation using ultraviolet bactericidal lamps, bactericidal irradiators and installations (RF patents No. 63224 U1, IPC A61L 2/10, publ. 27.05.2007, No. 2306150C1, IPC A61L9 / 20, 20.09.2007, patent WO No. 2005/039659 A1, IPC A61L9 / 16, publ. 06.05.2005).

The disadvantages of the known methods and devices is that the irradiator cannot be used in rooms with people. A common disadvantage of all these devices is the presence of mercury in the working environment of the emitter, which makes them unsafe during operation; in case of depressurization of the bulb, demercurization of the premises is required and requires a special and expensive procedure for disposal of used lamps.

The known method and device for air disinfection. Domestic specialists have developed equipment, the basis of which is the effect of a constant electric field on microbial cells, which leads to their destruction (Kokorin O. Ya., Volkov A. A., Nagolkin A. V., Kapustina E. A. Application of air disinfection units " Stream 50-m-1 "in ventilation and air conditioning systems of medical institutions // Refrigeration equipment. - 2004. - No. 2).

The known method of ozonation, which is an effective disinfectant, as well as a powerful deodorizer with a number of attractive properties, ozone is recognized. Ozone is also very effective as an antiviral agent and inexpensive to use, since ozone generators are numerous and easy to install and operate (RF patent No. 2555657, IPC F24F3 / 147, publ. 10.07.2015, JP No. H02237565A, IPC A61L9 / 16, publ. .20.09.1990, WO No. EP1755689A1, IPC A61L9 / 015, publ. 09.04.2008).

A known method and device for treating vehicle interiors with ozone (patent CA No. 2534700A1, IPC B60H3 / 0071, publ. 31.07.2007). The method includes creating an ozone-rich atmosphere inside a vehicle interior and maintaining a high ozone concentration for a sufficient period of time to inactivate pathogens. The ozone level in the vehicle compartment is monitored remotely to ensure that the desired ozone concentration is maintained, and once the specified time period is reached, the spent ozone is typically released into the atmosphere where it decomposes into oxygen. A device for implementing the method comprises an ozone generator, an air blower and an ozone concentration sensor. The blower is connected to the air circulation inlet to draw air from the passenger compartment through the blower, and the blower outlet is connected to direct the air back into the passenger compartment, ozone is directed into the circulating air, and the ozone concentration in the cabin air is measured.

The disadvantage of the known method and device for processing vehicles is the lack of monitoring of the epidemiological state inside the vehicle and the impossibility of remote control of the disinfection of vehicles.

A well-known car cleaner Cyclone (Austria), which is an air purifier with a multi-stage cleaning system, is air ionization, filtration with activated carbon and disinfection with an ultraviolet lamp with a wavelength of 365 nm (https://bizorg.su/ochistiteli-vozdukha-r/p386314 -ochistitely-vozduha-cyclone-cn31-cyclone-avstriya).

However, the known air purifier does not have forced ventilation, which significantly reduces its efficiency and air filtration rate; there is no possibility of remote control and monitoring of the epidemiological condition in the vehicle interior.

Also known is an automobile air cleaner "AVERS-HELPHI-AIR", which includes a plastic case with a cover with end air ducts, carbon and chemisorption filters, an electric motor with a fan, an air intake cavity, a cavity for irradiation with IR emitters, a cavity for UV and blue emitters, an on / off button , an indicator of the device operation, a device for connecting to an electric power supply through the cigarette lighter socket (RF patent No. 81684, IPC B60H 3/06, publ. 03/27/2009). The design of the irradiation cavities ensures pressure drops and turbulent movement of the cleaned air; also, fumes, aerosols and vapors of organic substances are captured by carbon and chemisorption filters. Disinfection of air from pathogenic microorganisms is provided by monochromatic emitters of ultraviolet, blue and infrared spectra in the cavities of the device.

The disadvantage of the known invention is manual control, the absence of sensors for detecting a passenger and monitoring the epidemiological condition in the vehicle interior.

A cleaning device and a method for cleaning vehicle interiors are known (EP patent No. 2668964A1, IPC A61L9 / 015, publ. 04.12.2013). A cleaning device for the automatic or semi-automatic cleaning of the interior surfaces of vehicles, for example, a rail vehicle, has an emitting device that emits radiation and fasteners for mounting at least one radiation device in the passenger compartment of a vehicle so that the radiation emitted a radiation device, directed inside the vehicle interior to disinfect the air inside the vehicle.

The disadvantages of the known technical solution are the complexity and material consumption of the structure, the lack of the possibility of remote control.

The closest in technical essence to the proposed invention is a sterilization system that provides sterilization inside a vehicle (CN patent No. 101716356A, IPC H01L31 / 042, publ. 02.06.2010). The sterilization system contains a central processor, a power supply, a toggle switch, a sterilization lamp, a passenger detection device and an inductive switch for the vehicle door state, and the power source supplies power to the sterilization lamp and the central processor, and when the passenger detection device detects that there is no passenger in the vehicle. and the inductive switch for the vehicle door status indicates that the vehicle door is closed, the CPU sends a signal to the sterilization lamp.

The disadvantage of the known invention is the lack of the possibility of remote control and monitoring of the epidemiological state inside the vehicle, the impossibility of emergency disinfection in accordance with the epidemiological state of the vehicle interiors. The disadvantage of the known sterilization system is also the sterilization duration of at least 30 minutes, which takes a lot of time under conditions of congestion of mobile vehicles such as regular buses, taxis, car sharing.

The objective of the present invention is to provide remote automatic disinfection of mobile devices with the ability to monitor the epidemiological state inside the mobile device, as well as with the ability to control the spraying of the disinfectant or ozonation.

As a result of using the proposed invention, it becomes possible to create an epidemiologically safe environment inside mobile devices by means of remote automatic disinfection with control of disinfectant spraying or ozonation from the control room using control and communication units, sensors installed inside the mobile device.

The above technical result is achieved in that in the proposed method for remote automatic disinfection of mobile devices, including the detection of a passenger using a passenger detection device, an inductive switch for the door state of a mobile device, automatic disinfection of a mobile device, processing a mobile device after each flight, according to the invention, the disinfection process is controlled from the control center remotely through control and communication units integrated with the control center, control the spraying of disinfectant or ozonation, monitor the epidemiological state inside the mobile device using microbiological air sensors, use the window state sensor to determine the position of the windows of the mobile device and When doors and windows are closed, in the absence of a passenger, remote automatic disinfection is carried out inside the mobile device.

The technical result is also achieved by the fact that the proposed device for remote automatic disinfection of mobile devices for implementing a method comprising a control unit, a disinfection device inside a mobile device, a passenger detection device, an inductive switch for a door state of a mobile device, according to the invention, is equipped with a microbiological air state sensor, a state sensor windows and a communication unit installed inside the mobile device, while a microbiological air condition sensor, a window status sensor, a passenger detection device, an inductive door status switch are connected via a communication unit to a remote dispatching center, which is connected to the control unit through a communication unit, and the control unit connected to a disinfection device.

The method for remote automatic disinfection of mobile devices is as follows.

From the dispatching point in a remote mode, automatic disinfection is carried out through the control and communication units integrated with the dispatching point. Disinfectant spraying or ozonation controls and monitors the epidemiological state inside the mobile device using microbiological air sensors. With the help of a window state sensor and an inductive door state switch, the position of the windows and doors of the mobile vehicle is determined, and when the doors and windows are closed, in the absence of a passenger, a signal is sent from the control room about the start of disinfection and a remote automatic disinfection is carried out inside the mobile vehicle.

The essence of the invention is illustrated by drawings, where

in fig. 1 shows a general diagram of a device for remote automatic disinfection of mobile devices; FIG. 2 shows a diagram of the signals coming to and from the control room.

The device for remote automatic disinfection of mobile devices contains a device for disinfection of mobile devices 1, a device for detecting passengers 2, an inductive switch for the state of the vehicle door 3, a sensor for the microbiological state of the air 4, a control unit 5, a communication unit 6, a sensor for the state of windows 7, installed inside the mobile device 8 , control room 9 for remote automatic control and monitoring of disinfection inside the mobile facility.

The control unit 5 is integrated with the control room 9 through the communication unit 6 for remote monitoring and control of disinfection by transmitting a signal from the control room 9 to the control unit 5 to monitor the epidemiological environment inside the mobile device 8. Passenger detection device 2, inductive switch for door status 3 and sensor the states of windows 7 are connected with the dispatching point 9. The control unit 5 is also connected through the communication unit 6 with the dispatching point 9, which controls the entire fleet of mobile vehicles, for example, a taxi fleet or a fleet of agricultural machinery and transport.

The device for remote automatic disinfection of mobile devices works as follows.

After each flight of the mobile device, the passenger detection device 2 detects that there is no passenger in the mobile device 8, and the inductive switch of the door state 3 and the window status sensor 7 indicate that the doors and windows of the mobile device 8 are closed. The control unit 5 sends a signal to the disinfection device 1. Using the sensors of the microbiological state of the air 4, they monitor the state inside the mobile device 8 by transmitting data through the communication unit 6 to the control center 9, from where they carry out remote automatic disinfection by the disinfection device 1 by sending a signal to the control unit 5 through communication unit 6 and control disinfectant spraying or ozonation.

As a device for disinfecting a mobile device, it is possible to use various installations for disinfecting air and surfaces: ozone generators integrated into the ventilation system, ultrasonic foggers, etc.

Example 1.

The car of the car-sharing company is automatically disinfected in the car after each client, the passenger detection device is used to detect passengers in the vehicle and enter the corresponding signal to the control center. When the passenger detection device detects that there is no passenger in the vehicle, the control unit sends a signal to the ultrasonic fogger to initiate disinfection. It is treated with a disinfectant solution in the form of a fog for several minutes, which is applied throughout the cabin, penetrating into hard-to-reach places. At the same time, the epidemiological state is monitored inside the mobile device using a sensor of the microbiological state of the air, and through the communication unit, the data is transmitted to the control center of the “Smart City” system. When the permissible norm of bacteria and microorganisms in mobile devices increases, a signal for additional disinfection is sent from the control room, while the concentration of the supplied disinfectant solution is controlled.

In the process of implementing the proposed method, a safe environment is created in the cabin of mobile vehicles, up to 99.9% of harmful and pathogenic viruses, bacteria and microorganisms are eliminated in 5 minutes, the processing of the vehicle interior is automated after each flight.

Example 2.

Rural food tankers are automatically disinfected after each trip, a passenger detection device is used to detect the driver in the vehicle and input the corresponding signal to the control room; and when the passenger detecting device detects that there is no passenger in the vehicle, a signal is sent to the ozonator to start disinfection. Ozone is processed through the ventilation system of the mobile vehicle, ozone is supplied throughout the cabin, penetrating into hard-to-reach places. After the driver leaves the cabin of the mobile device, disinfection is performed inside the cabin, saturating the cabin with ozone. Moreover, the epidemiological state in the cab of the tanker is monitored using a sensor of the microbiological state of the air, the data is transmitted to the control center. With an increase in the permissible norm of bacteria and microorganisms in mobile vehicles, a signal for additional disinfection is sent from the control center, while the amount of supplied ozone is controlled.

Claims (2)

1. A method for remote automatic disinfection of mobile devices, including the detection of a passenger using a passenger detection device, the state of a door of a mobile device using an inductive switch, automatic disinfection of a mobile device and processing of a mobile device after each flight, characterized in that the automatic disinfection process is controlled from a control center remotely through control and communication units integrated with the control room, they control the spraying of disinfectant or ozonation, monitor the epidemiological state inside the mobile device using microbiological air sensors, use the window sensor to determine the position of the windows of the mobile device and when the doors are closed and windows in the absence of a passenger carry out remote automatic disinfection inside the mobile device. 2. A device for remote automatic disinfection of mobile devices for implementing the method according to claim 1, comprising a control unit, a disinfection device inside the mobile device, a passenger detection device, an inductive switch for a door state of a mobile device, characterized in that it is equipped with a microbiological air state sensor, a window state sensor and a communication unit installed inside the mobile device, while a microbiological air condition sensor, a window status sensor, a passenger detection device, an inductive door status switch are connected via a communication unit to a remote dispatching center, which is connected to the control unit through a communication unit, and the control unit is connected with a disinfection device.

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