RU174109U1 - BACTERICIDAL INSTALLATION FOR DISINFECTION OF AIR IN PREMISES IN THE PRESENCE OF PEOPLE - Google Patents

Abstract

The utility model relates to devices for disinfecting air in various rooms with an increased risk of the spread of pathogens with the presence of people in order to reduce the level of bacterial contamination and create conditions to prevent the spread of pathogens of infectious diseases. Improving the usability of the bactericidal installation due to the ability to automatically turn on / off the recirculator, as well as reducing energy consumption compared to the continuous operation of the recirculator, is achieved by the fact that in a bactericidal installation for disinfecting indoor air in the presence of people containing a bactericidal recirculator, including a block of bactericidal lamps, control gear unit and visual information display unit connected at the input to the AC mains through a switch, an additional bactericidal recirculator is connected at the input to the AC mains through an acoustic presence detector, configured to connect the bactericidal recirculator to the AC mains in the presence of people in the room and disconnected when they are absent.

Description

The utility model relates to devices for disinfecting air in various rooms with an increased risk of the spread of pathogens with the presence of people in order to reduce the level of bacterial contamination and create conditions to prevent the spread of pathogens of infectious diseases.

Known bactericidal installation for disinfecting indoor air in the presence of people, containing a bactericidal recirculator, including a block of bactericidal lamps, a block of ballasts and visual information display unit connected to the AC input via an switch (see RF patent for utility model No. 91857, IPC A61L 9/20, published March 10, 2010). The disadvantages of the known device include the inconvenience of its operation, due to the need for continuous monitoring of the on / off of the recirculator, as well as, in the case of constant operation of the recirculator, increased power consumption.

Closest in technical essence to the proposed one is a bactericidal unit for disinfecting indoor air in the presence of people, containing a bactericidal recirculator, including a bactericidal lamp unit, a ballast control unit and a visual information display unit connected to the AC mains through a switch (see patent RF invention No. 2542508, IPC A61L 9/20, publ. 02.20.2015). The disadvantages of the known device can also be attributed to the inconvenience of its operation, due to the need for continuous monitoring of the on / off of the recirculator, as well as, in the case of constant operation of the recirculator, increased energy consumption.

The proposed technical solution is aimed at solving a technical problem and achieving a technical result consisting in increasing the usability of the bactericidal installation due to the possibility of automatically turning on / off the recirculator, as well as reducing energy consumption compared to the continuous operation of the recirculator.

This technical result is achieved by the fact that in a bactericidal installation for disinfecting indoor air in the presence of people containing a bactericidal recirculator, including a bactericidal lamp unit, a ballast control unit and a visual information display unit connected at the input to the AC mains through a switch, an additional bactericidal recirculator connected at the input to the AC network through an acoustic presence detector configured to connect a bactericidal irkulyatora to AC in the presence of people in the room and off - in the absence thereof.

Connecting a bactericidal recirculator at the inlet to the AC mains through an acoustic presence detector configured to connect the bactericidal recirculator to the AC mains in the presence of people in the room and disconnecting them if they are absent increases the usability of the bactericidal installation due to the absence of the need for constant monitoring of the recirculator switching on / off of which is carried out automatically by means of an acoustic presence detector depending on the prism Corollary / absence of people in the room which is subject to disinfection. Reduction of energy consumption takes place in comparison with the continuous operation of the recirculator, as in the prototype.

In FIG. 1 schematically shows the proposed bactericidal installation, and in FIG. 2 shows a known connection diagram of a lighting lamp with a motion sensor, similar to which the circuit in FIG. one.

The bactericidal unit contains a bactericidal recirculator 1, which usually includes a bactericidal lamp unit, a ballast control unit and a visual information display unit (not shown, since they are equipped with most of the known modern bactericidal recirculators, see, for example, an analogue of the RF patent for utility model No. 91857, or a prototype - RF patent for the invention No. 2542508), which is connected to the AC mains according to a known scheme, similar to connecting a conventional light lamp and a motion sensor (see Inte rnet http://promsant.ru). The bactericidal recirculator 1 is connected to the network through the switch 2 and is additionally connected at the input to the AC network through an acoustic presence sensor 3, configured to connect the bactericidal recirculator 1 to the AC network in the presence of people in the room and disconnect when they are absent. The acoustic presence detector itself is a well-known device and is used mainly in lighting systems (see Internet https://hran.im/umnyiy-dom/datchiki/datchiki-prisutstviya.html). In the proposed device, the acoustic presence sensor can be of any known design, can be located anywhere in the room, can be integrated into the body of the bactericidal recirculator, integrated into the control board of the recirculator, etc.).

The proposed bactericidal installation for disinfecting indoor air in the presence of people works as follows.

In an empty room that does not have acoustic noise inherent in the presence of people, the bactericidal recirculator 1 is disconnected from the AC mains using an acoustic presence sensor 3 (switch 2 is open). If there is acoustic noise characteristic of the presence of people in the room, using the acoustic presence sensor 3, which reacts to these noises, the bactericidal recirculator 1 is connected to the AC mains, and in accordance with the type of bactericidal lamps (usually UV irradiation lamps), the hardware design of the blocks included in the recirculator, software, the room is disinfected by irradiation of bactericidal lamps until the acoustic sensor 3 presence is not fixed The absence of acoustic noise in the room. In the absence of noise, and, accordingly, people in the room using the acoustic sensor 3 of the presence of the bactericidal recirculator 1 is disconnected from the AC mains.

If necessary, continuous operation of the bactericidal recirculator is possible when switch 2 is closed.

The proposed bactericidal installation is convenient in operation due to the ability to automatically turn on / off the recirculator and can reduce power consumption compared to the continuous operation of the recirculator.

Claims (1)

A bactericidal installation for disinfecting indoor air in the presence of people, containing a bactericidal recirculator, including a bactericidal lamp unit, a ballast control unit and a visual information display unit connected to an AC mains input via a switch, characterized in that the bactericidal recirculator is also connected at the input to AC power through an acoustic presence detector configured to connect a bactericidal recirculator to the AC power current in the presence of people in the room and shutdown - in their absence.

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