EE01556U1 - Portable ozone disinfection device - Google Patents

Abstract

A portable user friendly ozone-based disinfection system, which creates a predetermined ozone concentration in a confined space to disinfect desired objects. In such a system, the objects are placed on a rack inside the chamber, which is then closed and filled with ozone until reaching a desired concentration for a predetermined time. After the disinfection process, the chamber is ventilated.

Description

 TECHNICAL FIELD

The invention belongs to the field of disinfection devices, in which the disinfecting effect is achieved by means of an oxidizing environment, the oxidizing environment being ozone. The disinfection device is portable and applicable for the quick and convenient disinfection of masks, gloves, aprons, gowns, glasses, other protective equipment, medical and surgical instruments, food, electronic devices and other objects.

STATE OF THE ART

Surface disinfection is important in both medicine and the food industry, and a) UV radiation, b) cleaning agents, c) microorganism-repellent materials and coatings, d) nanoparticles, e) thermal treatment, and f) ozone have been widely used for this purpose. The latter is one of the most effective disinfectants.

The main disadvantage of UV-based devices is that only one side of the object to be disinfected is irradiated at a time. However, microorganisms are not destroyed on the shaded sides. For the same reason, a UV-based disinfection device and method are not suitable for disinfecting porous materials, including masks and other protective equipment. In the described device, ozone is also generated by UV radiation, but its concentration is too low to ensure effective disinfection of the shaded surfaces of the object.

In the case of ozone-based devices, the ozone concentration in the treatment chamber, the time it takes to maintain the required concentration, and the safety of the ozone for the user are important. Also, many ozone-based devices are stationary, i.e. they cannot be taken with them for use in different places and situations, for example, when an ambulance leaves for an accident, there may be a need to quickly disinfect protective equipment on site.

One of the closest technological solutions is described in patent application W02005/087278A1, 22.09.2005, Treated Air Systems Inc., where ozone is used to disinfect a closed space, applying ozone with a desired concentration for a predetermined period of time and at the same time increasing the humidity of the environment of the room to be disinfected to achieve disinfection efficiency. The described solution is intended for disinfecting closed spaces, such as hotel rooms, wards, etc.

with ozone. However, such a device cannot be used, for example, to disinfect masks, gloves, gowns, glasses and other protective equipment in a confined space.

In practice, the most common solution at the moment is portable disinfection devices based on UV radiation, into which objects requiring disinfection can be placed. https://www.amazon.co.uk/Uniharpa-Sterilizer-Disinfection-Ultraviolet-Sterilization/dp/B07Q2C4VGS

Document US2008/0067419 A1, 20.03.2008, Men-Tzon Shih describes a portable sterilizer intended for disinfecting forks, knives, chopsticks. It is a portable small pocket-sized device, the power and volume of which do not allow for the sterilization of the aforementioned protective equipment, which requires a larger chamber for their placement, as well as a larger amount of ozone, the release of which from the device is not desirable.

Document US2018/0055957, 1.03.2018 describes a disinfection box intended for treating medical devices with ozone. It is a box with a rotating box inside which the devices requiring disinfection are placed. The disadvantage of the solution is its stationarity, i.e. while the device can be installed, for example, in different rooms of hospitals, it cannot be taken with it to disinfect protective equipment where it is actually needed. With this solution, the medical devices should be collected and then brought to the room where the described disinfection box is set up.

Document US8,465,704, 18.06.2013 describes another closest technical solution as a disinfection apparatus, which consists of a box where products requiring disinfection are placed. In particular, the aim of the solution is to accelerate the cleaning process by drying the products using ozone in combination with air flow dehydration. For this purpose, a corresponding desiccant is used, which absorbs moisture from the air circulating in the device. The ozonator generates the necessary amount of ozone to remove unpleasant odors from products, for example, clothes, shoes. The device is not portable.

ESSENCE OF THE INVENTION

The aim of the present invention is to provide a portable ozone-powered disinfection device, which consists of a housing divided into two parts, an upper part or lid and a lower part, which together form a suitcase-like structure.

A closed chamber. The lower part of the housing contains the ozonator elements necessary for generating a corona discharge, the high-voltage source necessary for generating a corona discharge, the electronic unit with ozone concentration sensors, the controllers, switches and/or sensors necessary for achieving a suitable ozone concentration, the control panel, which includes the safety switches and signal lights necessary for ensuring the safety of the user, the system necessary for ventilating the chamber, which includes an air inlet and an air outlet, which in turn are equipped with valves and a fan for more efficient ventilation of the device, grates, supports or fixtures for placing objects to be disinfected and, if necessary, an additional device necessary to increase the efficiency of disinfection, such as an ultraviolet (UV) lamp and/or an ultrasonic aerosol sprayer. The suitcase-like melting chamber is equipped with handles and handles to facilitate transport and wheels to facilitate transportation, which are attached to the lid and lower part of the housing of the disinfection device, respectively.

When the disinfection device is operating, the sealed chamber of the disinfection device is filled with ozone, the task of the sealed chamber is to ensure a sufficiently high concentration of ozone inside the chamber throughout the disinfection process, in addition to separating the generated ozone environment from the environment surrounding the device and ensuring the safety of the user. Both sides of the sealed chamber of the disinfection device (lid and bottom) are made of metal, plastic, wood or composite material, and the lid and bottom can also be made of multilayer material. All other components of the disinfection device are attached to or on the bottom of the sealed chamber, including electronic components necessary for ozone generation, circuit breakers, grilles, devices necessary for ventilation, handles and/or wheels necessary for transportation, and devices necessary for increasing the efficiency of disinfection.

The ozonator elements required to generate the corona discharge required to generate ozone in a disinfection device can be plates, tubes, or flexible films equipped with electrodes. A practical ozonator element is, for example, aluminum oxide plates with metal electrodes applied to them.

A suitable voltage in the range of 1000-1000000 V is generated with a high-voltage source to create the corona discharge necessary for ozone generation in the disinfection device.

In the disinfection device, the required ozone concentration is achieved by the duration of the ozonator's operating time (working time), a programmable controller or a mechanical switch is used to control and monitor the duration of the operating time, where the appropriate operating time is specified. In this case, the appropriate ozonator operating time has been previously determined in the product development process, which depends on the size of the chamber to be closed and the ozonator's productivity, by measuring the ozone concentration in the chamber during the ozonator's operation. In the case of a programmable controller, however, an ozone sensor or a mechanical switch connected to it can be used, with the control signal of which the ozonator's operation is terminated when the required ozone concentration of 0.1-10000 ppm is reached, and the ozonator is switched off.

To ensure user safety, the disinfection device is equipped with at least one of the following circuit breakers or signal lights (safety):

- a circuit breaker that allows the disinfection device to be started only if the lid of the lockable chamber of the disinfection device is securely closed and fixed to the lower part of the chamber,

- a thermal protection switch that turns off the disinfection device if the critical temperature set for the ozonator operation, which is between 20-200°C, is exceeded during operation of the ozonator,

- a signal light (hazard light) that indicates whether the device or any subsystem of the device is switched on. In addition, the device may be equipped with an alarm device that produces an audible signal.

To ventilate the closed chamber of the disinfection device before opening the lid, use:

- a mechanically or automatically opening valve located in the outlet,

- a manually or automatically activated fan or a pipe or hose that is led out of a window of a room (room, hospital ward, ambulance, food truck or other means of transport) or into the building's ventilation system,

- ozone-reducing materials that are inside the chamber or are placed inside the exhaust pipe or hose. For example, activated carbon cartridges or cartridges containing oxidized iron and its alloys that react with ozone can be placed inside the ventilation pipe of the device. The inner walls of the sealed chamber of the disinfection device can also be covered with a porous material that reacts with ozone. Porous

The material is, for example, wood or cloth, which helps to quickly lower the ozone concentration after the disinfection process is complete, when the ozonator is turned off.

The purpose of the supports, fixtures, and grates installed in the closed chamber of the disinfection device is to ensure easy access of ozone to the object being disinfected from all sides.

To increase the efficiency of the disinfection device, it is possible to additionally install a UV radiation source in the closed chamber, which can also be used without an ozone generator if necessary, or an ultrasonic water aerosol device to increase humidity.

LIST OF DRAWINGS

The present invention is described in more detail below in an exemplary embodiment, with reference to the drawings, in which

Figure 1 shows a view of a portable ozone disinfection device in the transport position,

Figure 2 shows a portable ozone disinfection device with the lid open,

Figure 3 shows the basic connection diagram of the components of a portable ozone disinfection device with the device controller.

EXAMPLE

The portable ozone disinfection device 1 shown in Figures 1 and 2 consists of a housing divided into two parts, an upper part or lid 102 and a lower part 101, which together form a closable chamber. The ozonator elements 10 necessary for generating a corona discharge are arranged in the lower part 101 of the housing together with the ozonator's high-voltage source. The controllers, switches and/or sensors necessary for achieving the prescribed ozone concentration, the circuit breakers and signal lights 501 necessary for ensuring the user's safety are combined in the disinfection device control panel 5, which is arranged in the lower part of the housing, while the switches and signal lights are arranged on the outside of the lower part 101 of the housing so that the user has an immediate overview of the operation of the device or the warning signals associated with operation without opening the closable chamber of the device. A system for ventilating the chamber is arranged in the lower part 101 of the housing, which consists of an air inlet 6, which is equipped with a valve and/or fan, and

from the air outlet 7, which is equipped with a valve, fan or ventilation pipe. In this case, an additional module 11 for neutralizing ozone can be additionally added to the air outlet 7. The additional module 11 contains materials that neutralize ozone or reduce the ozone content in the exhaust air, for example, activated carbon cartridges that react with ozone. The inner walls of the closed chamber of the disinfection device can also be covered with a porous material that reacts with ozone. The porous material is, for example, wood or fabric, which contributes to the rapid decrease in ozone concentration after the disinfection process is completed when the ozonator is turned off.

Gratings, supports or fixtures for placing objects to be disinfected are placed in the lower part of the housing 101. In addition, an additional device, such as an ultraviolet (UV) lamp or a water aerosol sprayer, can be added to the lower housing 101 or to the inner side of the lid of the closable chamber, if necessary, to increase the efficiency of disinfection.

To control and monitor the operation of the portable disinfection device, an electronic unit 8 is placed in the lower housing, which includes a controller necessary for controlling the device (see Figure 3), a communication system for remote control of the portable disinfection device, ozone sensors and circuit breakers, and, as an important detail, a safety switch 9, which allows the disinfection device to be started only in the closed state of the closable chamber, where the housing lid 102 is fixed/attached to the lower part 101 of the housing with fastening means 13.

The portable disinfection device controller is connected to the ozonator 10, the fans and valves of the system necessary for ventilating the closed chamber, the safety switch 8, as well as the ozone detector, the device remote control module, the temperature protection switch, the main switch, the control panel 5 and the cable with the plug 4 for connecting the device to the power supply and/or an autonomous power source, such as a battery, to ensure the operation of the disinfection device in a situation where there is no conventional power supply. The controller is also connected to a remote control module (including a communication system, such as a radio communication system) for remote control of the disinfection device, as well as for automatically sending safety/error signals to a central operator.

The closable chamber (consisting of a lid and a lower part) of the portable ozone disinfection device, according to Figure 1, is preferably suitcase-like and made of aluminum and equipped with handles 301, 302 and handles 303 to facilitate transportation, and it is also equipped with wheels 2 for easier transportation.

To ensure the safety of the user, the portable disinfection device is equipped with a circuit breaker or a signal light (safety light). The circuit breaker prevents the disinfection device from being started with the lid of the disinfecting device's lockable chamber open. In addition, the device has a thermal circuit breaker that switches off the disinfection device if the critical predetermined temperature set for the ozonator operation is exceeded during operation, which is in the range of 20-200°C.

To ventilate the closed chamber of the disinfection device before opening, either a mechanically or automatically opened valve and a manually or automatically activated fan or a pipe or hose are used, which is led out of the window of the room (room, hospital ward, ambulance, food truck or other means of transport) or into the building's ventilation system.

When using a portable disinfection device, the lid 102 of the closable chamber is first opened and the objects to be disinfected are placed on the grate 12. The chamber is closed and the lid 102 is fixed to the lower part 101 of the chamber with the fastening means 13 on the lid. Then, the disinfection device is connected to the existing power supply using a cord and a plug or is switched on from the corresponding switch on the battery power control panel 5. Then, the required ozonator operating time is selected on the control panel and the device is started. After the ozonator has finished working, the user starts the ventilation system manually or the device controller automatically starts it, whereby the air coming from the device is led to the ventilation system through the outlet of the device previously connected to the room ventilation system or out through the room window. This is especially the case if the portable ozone-powered disinfection device is used in closed rooms (for example, a hospital ward, an ambulance, a food truck or other means of transport). When the chamber of the disinfection device has been ventilated for the required time, the user manually switches off the ventilation system or the device automatically switches it off. The device then gives the necessary sound and/or light signal (for example, the green enabling signal light comes on) to indicate that it is safe for the user to open the chamber to be closed. The closed chamber can then be opened and the disinfected objects removed. When all objects requiring disinfection have been processed in the disinfection device, the disinfection device is switched off, disconnected from the power supply and packed up in the transport position. Then

It is possible to quickly move a portable disinfection device to a new location where objects need to be disinfected.

1 - Portable ozone-powered disinfection device

101- lower part

102- top part or lid

2- wheels

301, 302-handles

303-handle

4- power cord with plug

5 - control panel

501- circuit breakers and signal lights

6 - air intake

7-Air outlet

8-electronics block

9- safety switch

10 - ozonator elements with high voltage source

11 - additional module

12 - grate

13 - fasteners

Claims (10)

1. Portable ozone-powered disinfection device (1), consisting of a housing divided into two parts, a lid (102) and a lower part (101), which together form a suitcase-like closable chamber, in the lower part (101) of which are arranged grates, supports or fixtures (12) for placing objects to be disinfected, ozonator elements (10) together with a high-voltage source of the ozonator, an electronic unit (8) containing ozone concentration sensors, a device control controller, a circuit breaker (9) and/or sensors, and a control panel (5) arranged on the outside of the lower part of the closable chamber, characterized in that the suitcase-like melting chamber is equipped with handles (301, 302) and handles (303) for facilitating transport, and with wheels (2) for facilitating transport, and that the lower part of the disinfection device housing (101) is a system for ventilating the chamber, consisting of an air inlet (6) equipped with a valve and/or fan and an air outlet (7) equipped with a valve, fan or ventilation pipe. 2. A portable ozone-powered disinfection device according to claim 1, characterized in that an additional module (11) for neutralizing ozone is added to the air outlet (7). 3. A portable ozone-powered disinfection device according to claim 2, characterized in that the additional module (11) contains materials that neutralize ozone or reduce the ozone content in the exhaust air, such as cartridges of ozone-reactive activated carbon, cartridges of oxidized iron or its alloys, or porous material, such as wood or fabric. 4. A portable ozone-powered disinfection device according to any one of the preceding claims 1 to 3, characterized in that an additional device, which is a UV radiation source, is added to the inner side or lower part (101) of the housing cover (102) of the disinfection device to increase the disinfection efficiency. 5. A portable ozone-powered disinfection device according to claims 1 to 4, characterized in that an ultrasonic aerosol sprayer is added to the inner side of the cover (102) or to the lower part (101) of the disinfection device housing, with which an ultrasonic water aerosol is generated in the closed chamber of the disinfection device to increase the humidity of the environment during operation of the disinfection device. 6. A portable ozone-powered disinfection device according to any one of the preceding claims 1 to 5, characterized in that the ozonator elements required to generate the corona discharge necessary for generating ozone in the ozonator (10) are plates, tubes or flexible films equipped with electrodes. 7. A portable ozone disinfection device according to claim 5, characterized in that the ozonator elements are aluminum oxide plates on which steel or titanium electrodes are applied. 8. A portable ozone-powered disinfection device according to any preceding claim, characterized in that the suitable voltage generated by the high voltage source, which is necessary to create the corona discharge necessary for ozone generation, is in the range of 1000-1000000 V. 9. A portable ozone-powered disinfection device according to any preceding claim, characterized in that the ozone concentration is programmable with the duration of the ozonator operation in the range of 0.1-10000 ppm by means of a controller or an ozone sensor connected thereto or a mechanical switch connected thereto. 10. A portable ozone-powered disinfection device according to any preceding claim, characterized in that the disinfection device is equipped with a circuit breaker that allows the disinfection device to be started only when the lid (102) of the closable chamber is closed, and a thermal circuit breaker that allows the device to be switched off when a critical temperature preset for the ozonator, which is in the range of 20-200°C, is exceeded, and signal lights to indicate the on/off status of the device or one of its subsystems.