CZ34179U1 - Equipment for decontamining interior spaces - Google Patents

Description

Equipment for decontamination of interior spaces

Field of technology

The technical solution concerns equipment for decontamination of internal spaces from unwanted bacteria, yeasts and viruses.

Prior art

UV-C luminaires, which are based on category C UV radiation, are used to decontaminate indoor spaces. UV-C radiation has lethal effects on microorganisms (bacteria, yeast and viruses including COVID-19). UV-C radiation disrupts the DNA / RNA of microorganisms and thus disrupts the viability of all living organisms.

Fan devices are used as other known devices. These devices work on the principle of air flow around UV-C tubes. These devices are only used to disinfect the air and cannot disinfect surfaces. These devices do not have a HEPA filter (High Efficiency Particulate Air filter), which is a filter that captures the finest hazardous particles.

Stationary high-performance devices without a fan are used as other known devices. These devices are usually firmly mounted on the walls of the rooms and are designed to disinfect surfaces that are exposed to direct UV-C radiation.

The essence of the technical solution

The existing disadvantages of the known interior decontamination devices are eliminated by the interior decontamination device according to the technical solution, which comprises a support box. The essence of the technical solution lies in the fact that in the upper part of the supporting box there is an air main filter, above which a fan is placed. Under the air main filter, UV-C fluorescent tubes are placed in a vertical position in the support box. An inlet opening is formed in the lower part of the support box, through which air is sucked into the support box from the room, which is decontaminated. The support cabinet contains an opening door that opens when the device is in night mode. In order to achieve better effects of the device, it is advantageous to place an air pre-filter behind the inlet opening, which partially traps coarse dirt and microbacteria at the inlet and prolongs the life of the main filter. A HEPA type filter is preferably used as the main filter in the device.

The advantage of the technical solution is that the decontamination is based on a combination of HEPA filtration (ie a highly efficient air particle filter) and powerful UV-C fluorescent lamps, whose UV radiation has lethal effects for microorganisms such as bacteria, yeast and viruses, including SARS -CoV-2). UV radiation disrupts the DNA / RNA of microorganisms and thus destroys them. The common advantage of the device is that it works in two modes, namely day mode and night mode. In the day mode, the air in the room is disinfected using HEPA filtration even in the presence of people, in the night mode, the surfaces in the room are disinfected with UV radiation without the presence of people.

Explanation of drawings

The technical solution will be explained in more detail with reference to the attached figure, in which Fig. 1 shows a view of a closed device, Figs. 2 and 2a show a section taken by the device of Fig. 1, Fig. 3 shows a diagram of a day device and diagram shows the night mode of the device.

- 1 CZ 34179 U1

Examples of technical solution

The device 20 shown in Fig. 1 consists of a support box 10 on which an upper cover E is mounted. Wheels 6 are attached to the lower part of the support box 10 for easy handling of the device. The support box 20 includes two openable doors 2 that are open when the device 20 is in night mode of operation, as will be described below (FIG. 4). In a specific embodiment, the door hinges 2 are located at two opposite corners. The door 2 is lockable with a lock 4. A distribution fan 13 is mounted in the upper cover 1, under which an air HEPA filter 7 is mounted in the support housing 10. The air HEPA filter 7 is mounted over the entire surface of the support housing 10 (FIG. 2a). In the support housing 10, the UV-C fluorescent tubes 11 are fixed to the upper fastening elements 14 and to the lower fastening element 14.1 in the vertical position.

The number of UV-C fluorescent tubes 11 depends on the power of the device 20. In the lower part of the support box 10, a prefilter 12 is mounted on the lower fastening element 14.1 under the UV-C tubes 11, which is intended for coarse filtration of supply air and removes incoming air. coarse dirt. This prefilter 12 prolongs the life of the HEPA filter 7. In the lower part of the support box 10 there is an opening 16 for the entry of contaminated air into the device 20. The device 20 further comprises control elements, namely:

- a switch 3, which switches the operation of the device 20 between day and night mode. This switch 3 is located on the front side of the top cover 1. - a timer 8, which sets the disinfection time of the night mode. Timer 8 is located on the instrument panel behind door 2.

- motion sensor 9, protects moving persons in the vicinity of active UV tubes 11. In night mode, the sensor 9 monitors the movement of persons in the vicinity of the running device. If the sensor detects the movement of people, it automatically switches off the UV-C tubes. In day mode, the sensor monitors the opening of the device door. If someone opens the door during operation, it switches off again. The motion sensor 9 is located next to the timer 8.

- operating hours, which set the disinfection time in night mode. The operating hours are stored next to the motion sensor 9.

Device functions:

Device 20 operates in day and night mode. In the daily mode (FIG. 3), air disinfection, i.e. air purification and destruction of microorganisms in the room takes place by circulating air which is irradiated inside the closed device 20 by UV-C fluorescent tubes 11. The door 2 of the device 20 is closed and locked by a lock 4 to it was not possible to open the door. Air from the room enters the device 20 through an opening 16 in the lower part of the housing 10 and passes through the housing 10 and the upper cover E by means of a fan 13. When traveling through the device 20, the air is first led through a prefilter 12 which removes coarse impurities from the circulating air. The air then passes around the UV-C tubes JT, where the microorganisms are exposed to strong UV radiation for about 2 seconds, which kills most of them. The air is further filtered by a high-capacity HEPA filter 7, which with an efficiency of 99.99% captures all particles from the air that have not been destroyed by UV-C tubes 11, including dead and surviving microorganisms. The air output of the device per hour is approx. 500 m ³ / h to 900 m ³ / h.

In the night mode of the device 20 (FIG. 4), the disinfection of air and surfaces takes place without the presence of people and is the most effective way of sterilizing the air and the environment. The device 20 operates without a fan 13 which is switched off. Door 2 is open. The device is placed in the center of the room near the most exposed surfaces, which decontaminates by UV radiation from the tubes 11. The UV time coming from the JT tubes is programmed and controlled by a timer 8. The safety motion sensor 9 switches off the whole device 20 if it enters the irradiated room. persons.

Claims (3)

CLAIMS FOR PROTECTION An interior decontamination device (20) comprising a support housing (10), characterized in that an air main filter (7) is arranged in the upper part of the support housing, above which a fan (13) is located, below the air main filter (7). ) UV-C fluorescent tubes (11) are placed in a vertical position in the support box (10), an inlet opening (16) is formed in the lower part of the support box (20), the support box (10) comprising an openable door (2). Device (20) according to Claim 1, characterized in that an air prefilter (12) is arranged behind the inlet opening (16). Device (20) according to claims 1 and 2, characterized in that the air main filter (7) is of the HEPA type.