RU197421U1 - DEVICE FOR PREVENTION OF THE DISTRIBUTION OF AIR-DROP INFECTIONS - Google Patents

Abstract

The technical task of this utility model is to ensure uniform sanitation of air inside the premises to prevent the spread of airborne infections. The problem is solved in the device for preventing the spread of airborne infections, comprising a housing, a pneumatic disinfectant aerosol generator with a disinfectant container and an air blower , a mixing and exhaust chamber made in the form of a closed translucent hollow cylinder with an outlet direct flow grating with smooth expansion towards the airflow outlet, with at least two inlet air nozzles tangentially connected to it, connected to discharge fans and coaxially connected aerosol supply nozzle connected to the aerosol generator, while an ultraviolet ring is located around the translucent hollow cylinder emitter, and the air supply and the amount of aerosol are controlled by the control unit depending on the degree of saturation of the air environment tsiruyuschim means indoors, the logging sensor aerozoley.Zayavlennaya useful model contains a new set of essential features and allows to simplify the structure and to ensure uniformity of the air indoors readjustment to prevent the spread of airborne infections.

Description

The utility model relates to the field of medical disinfection, in particular for the rehabilitation of the air of enclosed spaces.

Known devices for disinfecting rooms using ultraviolet radiation, air ionization and fine dispersion of disinfectants.

For example, device devices for disinfection of premises by generating aerosols “Ultrasprayer”, “Nocospray” and others are known.

The main disadvantage of the known devices is the unevenness of air sanitation inside the premises due to the lack of additional devices for distributing the generated aerosol throughout the volume of the room and as a result, the efficiency of use is reduced or the disinfection is partially performed.

The closest in technical essence of the claimed utility model is the HYDROGEN PEROXIDE AEROSOL EQUIPMENT WITH AIR BLOWER device (PATENT KR101924620, class IPC A61L2 / 14; A61L2 / 22; A61L2 / 26; A61L9 / 14, publ. 07.27.2017) including a housing, a generator aerosol with a container for storing disinfectant, blower and control unit. The operation of the device is to distribute the flow of aerosol particles in the room due to the redirection of the blower, while the speed and performance of the blower is controlled by the control unit.

A disadvantage of the known solution is the design complexity, high energy costs and uneven air sanitation in the room due to the straight flow direction of the aerosol particles with the air blower.

The technical task of this utility model is to simplify the design and ensure uniform sanitation of indoor air to prevent the spread of airborne infections.

The problem is solved in the device apparatus for preventing the spread of airborne infections, comprising a housing, a pneumatic disinfectant aerosol generator with a disinfectant container and an air blower, a mixing and discharge chamber made in the form of a translucent hollow cylinder closed on one side with at least two tangentially connected inlet air pipes connected to pressure fans and coaxially connected from the closed side a translucent hollow cylinder with an aerosol supply nozzle connected to the aerosol generator; in this case, an annular ultraviolet emitter is located around the translucent hollow cylinder, and the air supply and the amount of aerosol are controlled by a control unit depending on the degree of saturation of the air with a disinfectant in the room registered by the aerosol sensor.

In FIG. schematically shows the design of the apparatus for preventing the spread of airborne infections.

As shown in FIG. The apparatus for preventing the spread of airborne infections in accordance with this utility model is a device consisting of a housing 1 in which an incoming air line 2, a filter 3, discharge fans 4 are connected, connected by nozzles 5 to a translucent hollow cylinder 6, connected on one side with a direct-flow outlet grate 7, made with smooth expansion towards the air flow outlet, and on the other hand, a nozzle 8 with a pneumatic aerosol generator 9, wherein A control unit 10 located in the housing 1 is electrically connected to pressure fans 4, an air blower 13 for a pneumatic aerosol generator 9, an aerosol sensor 11, and a ring ultraviolet emitter 12.

The device operates as follows.

The air flow coming from the intake air line 2 is cleaned of dust particles by a filter 3 and pressure fans 4 through the nozzles 5 are fed into a translucent hollow cylinder 6, where it is twisted and mixed with an aerosol disinfectant supplied along the axis of the translucent hollow cylinder 6 from a pneumatic aerosol generator 9 through the pipe 8, at the same time, the air passing through the translucent hollow cylinder 6 is further disinfected with ultraviolet radiation from the ring ultraviolet and the radiator 12, and exits in a swirling expanding flow through the exhaust straight-through grating 7. At the same time, the control unit 10 continuously records the indications of the amount of aerosol in the ambient air through the aerosol sensor 11 and controls the speed of rotation of the blower fans 4 and the amount of supplied aerosol from the pneumatic aerosol generator 9 by adjusting air blower performance 13.

A pneumatic generator with regulation of the degree of dispersion of aerosols allows the use of any disinfectant.

The presence of a peripheral swirling air stream when mixing aerosol disinfectant particles directed along the axis with air allows the air to be treated most evenly.

The location of the blower fans is tangential to the translucent hollow cylinder, which provides a direct-flow outlet of the treated air through the direct-flow exhaust grate, made with smooth expansion towards the airflow outlet, which ensures uniform distribution of the treated air from the device throughout the room due to the swirling and expanding air flow.

The presence of a ring ultraviolet emitter allows you to further disinfect the air.

The aerosol sensor allows automatic control of the device by determining the presence and uniform distribution of aerosol particles in the room.

Thus, the claimed utility model contains a new set of essential features and allows to simplify the design and uniformity of air sanitation inside the premises to prevent the spread of airborne infections.

Claims (1)

An apparatus for preventing the spread of airborne infections, comprising a housing, a disinfectant aerosol generator with a disinfectant container, and an air blower, characterized in that it comprises a mixing and exhaust chamber made in the form of a closed translucent hollow cylinder with a direct-flow outlet grating with smooth expansion in the air outlet side, with at least two tangentially connected inlet air pipes connected to the discharge valves proof operation and coaxially connected pipe mist supply connected to an aerosol generator, with around translucent hollow cylinder is an annular ultraviolet emitter, and control of air flow and the amount of the aerosol carries the control unit depending on the ambient air saturation disinfectant indoors, the logging sensor aerosols.

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