RU2769219C1 - Universal automatic mobile disinfector - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to medical equipment, namely to an automatic mobile disinfector. The invention is made in the form of a plant including a switching and control unit, an ozone generator unit, an ozone-air mixture creation unit, an ozone destruction catalyst unit, ozone concentration and temperature sensors placed in a common housing and connected by means of a switching and control unit. The body is made in the form of a three-level mobile device mounted on a platform with wheels and equipped with handrails. At the top level there is a switching and control unit with a microcontroller control center with a built-in real-time clock, equipped with a touch monitor with a sound speaker, and a thermal printer with thermal paper. At the middle level, there is an air-ozone mixture generation circuit, which includes an ozone generator, a blower equipped with a dust filter, ozone concentration and temperature sensors. At the lower level of the disinfector there is an ozone destruction circuit with a dust filter, an ozone destruction catalyst, an exhaust fan and a directional ventilation outlet.

EFFECT: creation of a universal mobile disinfector unit, which allows a wide range of disinfection activities in various sealed rooms and volumes, followed by ozone destruction and the provision of an automatic report on the main indicators of the disinfection process indicating the real time of the process, as well as eliminating the need to create a large list of devices for disinfection.

1 cl, 6 dwg

Description

The invention relates to medicine, namely to devices for disinfection of air and various surfaces in enclosed spaces with an ozone-air mixture.

This unit can be used in various sealed rooms and volumes for automatic disinfection activities; destruction of microbiological objects: viruses, bacteria, fungi, mold.

There are various methods and devices using ozone for disinfection.

There is a method of chamber disinfection with ozone, according to which the disinfected items are placed in the chamber, the chamber is sealed, filled with ozone and the ozone-air mixture is circulated, after the disinfection is completed, the chamber is degassed, then the things are unloaded. Filling the chamber with ozone and holding things in the chamber is carried out under normal climatic environmental factors in the chamber, while filling the chamber with ozone in the chamber, an air vacuum is created, which is maintained until the ozone concentration in the chamber reaches 2 g / m ³ , after that, the ozone-air mixture is circulated, the disinfected things are kept under the influence of ozone from two to six hours when the chamber is loaded per 10 m ³ from 40 to 120 kg, respectively (patent RU 2279897).

Known installation for the sterilization of medical and laboratory instruments, providing sterilization with an ozone-air mixture (patent RU 2242995).

Known multifunctional ozone sterilizer that provides automatic full cycle processing using ozone and automatic quality control for sterilization, medical instruments (patent RU 2745455).

Known household disinfection device for home use (patent RU 203998).

Known examples of the use of ozone against various objects, such as insects, mold, bacteria, unwanted odors, unwanted chemical compounds and/or toxins in the processing of feather-down raw materials (patent RU 2446830) and agricultural products (patent RU 2743749).

However, all the methods and devices discussed above are narrowly focused and designed for a specific application. In addition, the absence of an automatic processing mode and ozone destruction procedures require mandatory ventilation or a certain time interval for ozone self-decomposition after processing, which poses a certain danger to operating personnel.

The closest in terms of essential features is a multifunctional ozone sterilizer (patent RU 2700919). The multifunctional ozone sterilizer contains a sterilization chamber, a power supply unit, a switching and control unit, an ozonizer unit, an air circulation pump unit, an ozone destructor unit, additionally equipped with an ultrasonic emitter unit, a liquid pump unit, a liquid reservoir unit, a liquid filter unit, a liquid level sensor unit in the sterilization chamber, a block of electrodes for measuring the redox potential, a block of ozone concentration sensors, a block of sensors-locks of the sterilization chamber, which includes infrared sensors and lifts of the sterilization chamber lid, and the switching and control unit has a display and a built-in microcontroller with a control program, a block air circulation pumps are equipped with air heaters with air temperature sensors.

Despite a number of advantages of this device, which automatically provides the processes of sterilization and destruction of ozone, performs quality control, it is stationary, and its volume is limited by the size of the sterilization chamber, and as a result has a narrow focus - it is used only for sterilizing medical instruments and implants.

The technical problem to be solved by this invention is to create a universal mobile unit for an ozone disinfector, which will allow a wide range of disinfecting measures in various sealed rooms and volumes to destroy microbiological objects: viruses, bacteria, mold, fungi, followed by ozone destruction and reporting about the main indicators of the disinfection process in automatic mode.

The problem is solved using the proposed design of a universal automatic mobile disinfector, made in the form of a mobile unit, including a switching and control unit, an ozone generator unit, an ozone-air mixture creation unit, an ozone destruction catalyst unit, ozone concentration and temperature sensors located in a common housing and connected by means of a switching and control unit. At the same time, the body is made in the form of a three-level mobile device mounted on a platform with wheels and equipped with handrails. At the top level of the device there is a switching and control unit with a microcontroller control center, equipped with a touch monitor with a sound speaker, a real-time clock and a thermal printer with thermal paper; at the middle level - an air-ozone mixture generation circuit, which includes an ozone generator, a blower equipped with a dust filter, ozone concentration sensors and a temperature sensor. At the lower level of the disinfector, there is an ozone destruction circuit, which includes a dust filter, an ozone destruction catalyst, an exhaust fan and a directional ventilation outlet.

A distinctive feature of the present invention is the rejection of the chamber method of processing, in favor of a universal approach to each processed object. Thus, when processing premises with a probable viral infection, it is necessary to disinfect the air and a large number of surfaces of objects, including porous materials that make up part of the premises or objects, which is difficult when using disinfection chambers. Therefore, the role of automatic control increases and there is a need for a universal mobile installation. In addition, the proposed installation provides for a procedure for documenting the entire processing process with a printout of a report on the main indicators of the disinfection process on a thermal printer, which is part of the automatic control unit, or optionally, an electronic report created by means of telemetry can be sent to the customer.

This unit carries out processing without the presence of a person according to the program with the implementation of a set concentration of ozone in the composition of the air-ozone mixture from 4 to 15 mg / m ³ (which is sufficient to destroy most viruses, but possibly higher) and automatic exposure time from several minutes up to several hours. Control is carried out by a device programmed through a touch monitor. The results of the disinfection (the level of ozone concentration in the air of the room) are displayed on the unit's display and printed on a thermal printer.

After the end of the ozonation process, the air in the room is cleaned of ozone to a value below the MPC by passing it through an ozone destruction catalyst, which eliminates the need to wait for ozone self-decomposition or to ventilate the premises. For convenient movement in the processed premises, the unit is made mobile and equipped with wheels, handrails, and can work in any sealed room or structure, if it is possible to connect to the mains.

The technical result of the claimed invention consists in expanding the arsenal of technical means - creating a universal mobile disinfector installation that allows for a wide range of disinfecting measures in various sealed rooms and volumes, followed by ozone destruction and the provision of an automatic report on the main indicators of the disinfection process indicating the real time of carrying out process. The versatility of this solution eliminates the need to create a large list of devices for disinfection, as it allows disinfection of various surfaces: building structures, furniture, objects, porous and fabric materials, split systems and ventilation ducts, as well as hidden surfaces, using existing premises or structures , which is a cheap and practical solution, and most importantly, a universal one. In addition, the method used in this installation is environmentally friendly and economically attractive due to the absence of chemical consumables.

The proposed installation can be widely used in the national economy: medicine - disinfection of wards, rooms, treatment rooms; in transport - disinfection of passenger cars on the railway, in the subway, passenger buses, minibuses; education - disinfection of school classes, student audiences, agriculture - disinfection of premises for keeping animals, processing of containers for received products, processing of livestock and poultry products themselves in order to increase shelf life; crop production - processing of storage sites and the seeds themselves before storage and planting in order to destroy microorganisms - mold, fungi.

The essence of the invention is illustrated by illustrations and photos in Fig. 1, 2, 3, 4, 5, 6.

Fig. 1 - Design of a universal automatic mobile disinfector, where 1 - body; 2 - platform; 3 - wheels; 4 - handrails; 5 - microcontroller control center; 6 - touch monitor; 7 - thermal printer with thermal paper; 8 - ozone generator; 9 - blowing fan; 10 - dust filters; 11 - ozone concentration sensor; 12 - temperature sensor; 13 - ozone destruction catalyst; 14 - exhaust fan; 15 - ventilation outlet.

Fig. 2 - Scheme of operation of the installation 1st stage.

Fig. 3 - Scheme of operation of the installation 2nd stage.

Fig. 4 - Scheme of operation of the installation 3rd stage.

Fig. 5 - General view of the installation (photo)

Fig. 6 - Block diagram of the installation.

Structurally, the proposed universal automatic mobile disinfector is an installation (Fig. 1), the body 1 of which is made in the form of a three-level mobile device mounted on a platform 2 with wheels 3, equipped with handrails 4. At the top level there is a switching and control unit with a microcontroller control center 5 , equipped with a touch monitor 6 with a sound speaker and a real-time clock, which serves to display the process and control the installation in real time, as well as a thermal printer with thermal paper 7 to print a report on the main indicators of the disinfection process. At the middle level, there is a circuit for generating an air-ozone mixture, including an ozone generator 8, a blower fan 9, which supplies air to the ozone generator, equipped with a dust filter 10 to protect against dust and sensors for ozone concentration 11 and temperature 12. At the lower level there is an ozone destruction circuit , designed for the destruction of ozone from the composition of the air-ozone mixture after disinfection, including a dust filter 10, an ozone destruction catalyst 13, when passing through which ozone is restored to oxygen, an exhaust fan 14 and a directional ventilation outlet 15 through which the purified air after the fan is directed upwards . All elements are connected and controlled automatically by means of a switching and control unit.

The practical operation of the proposed design of the universal automatic mobile disinfector is carried out as follows.

All disinfection activities are carried out automatically in three stages. Before starting the operation of the installation, it is necessary to make sure that the room is airtight, people and animals must leave the room. It is recommended to install the device on a flat, stable surface in the center of the room, which contributes to uniform mixing of ozone with air throughout the entire volume of the room. The installation is controlled using a touch monitor, on which the parameters of the ozone concentration and the exposure time are selected (if necessary, the value of the real time clock is corrected).

At the first stage (Fig. 2), ozone is generated and the space is filled with an ozone-air mixture. After the switch-on command received from the switching and control unit 5, the blower fan 9 is turned on, equipped with a filter 10, which supplies air to the ozone generator 8, where ozone is obtained from the atmospheric air using a barrier discharge. The room is filled with an ozone-air mixture with a set ozone concentration of 4 to 15 mg/m ³ blown through the top and sides of the unit body 1. As a result of the fact that ozone is heavier than air, it gradually descends and fills the entire space evenly. The ozone concentration in the room gradually increases until it reaches the set value. It is determined by sensors 11, two of them are installed for reliability. After that, the ozone concentration support mode is activated, set by the program for a set period of time. The fan runs constantly, and the ozone generators turn on automatically when the level drops. After reaching the required ozone concentration and exposure time, ozone generation stops and the plant automatically proceeds to the second stage - ozone destruction (Fig. 3). After the required concentration of ozone in the ozone-air mixture is created in the room, a command is received from the control center 5 to turn off the ozone generation and turn on the ozone destruction ventilation circuit. The room is cleaned from ozone by passing the mixture that filled the room through the second circuit, in which the ozone-air mixture begins to be sucked through the dust filter 10. Then the mixture is pulled through the ozone destruction catalyst 13, in which ozone is restored to the level of stable oxygen, which, with the help of the exhaust fan 14 is fed upwards through the outlet 15, the air is passed several times until it reaches values below the MPC, determined by the readings of the sensors 11. At the end of the ozone recovery stage, a sound speaker signal is received. Entry of personnel without personal protective equipment is allowed immediately after the plant is turned off. Thanks to the ozone destruction procedure, the room can not be ventilated, since the ozone concentration level will be less than 0.1 mg/m. The unit continuously measures ozone concentration and ambient temperature and stores the data in memory. At the third final stage of work (Fig. 4), the control center 5 generates a report on the work performed and prints it out through a thermal printer 7. Other forms of reporting are also possible - transferring information through various telemetry tools to the user's address.

The unit is designed for disinfection in enclosed spaces and objects of various design and volume, with a volume of 50 to 150 m ³ . If it is necessary to process large rooms, a scheme for the operation of several devices simultaneously in one room can be used, using WI-FI interaction between several stations.

Claims (1)

Automatic mobile disinfector, made in the form of a unit, including a switching and control unit, an ozone generator unit, an ozone-air mixture creation unit, an ozone destruction catalyst unit, ozone concentration and temperature sensors placed in a common housing and connected by means of a switching and control unit, differing the case is made in the form of a three-level mobile device mounted on a platform with wheels and equipped with handrails, on the upper level of which there is a switching and control unit with a microcontroller control center with a built-in real-time clock, equipped with a touch monitor with an audio speaker, and a thermal printer with thermal paper ; at the middle level - an air-ozone mixture generation circuit, which includes an ozone generator, a blower equipped with a dust filter, ozone concentration and temperature sensors; on the lower level of the disinfector there is an ozone destruction circuit with a dust filter, an ozone destruction catalyst, an exhaust fan and a directional ventilation outlet.

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