RU200740U1 - AIR DISINFECTION DEVICE - Google Patents

Abstract

The utility model relates to sanitary and hygienic devices, including disinfectants and can be used for bactericidal disinfection of air using ultraviolet radiation in rooms, as well as in public and route transport. The technical result achieved by the claimed technical solution consists in increasing the efficiency of the device. The technical result is achieved by the fact that the device for air disinfection comprises a housing with an inlet window located in its upper part along the edges for air intake and an outlet window equipped with a fan, a UV radiation source in the spectral range 205-315 nm, located inside the housing , protective screens located inside the case in front of the entrance and exit windows, controls for the operation of the device. In this case, the extreme sections of the upper part of the housing at the locations of the inlet and outlet windows are made beveled, so that the inlet and outlet windows of the housing are located on the beveled sections and are oriented in opposite directions. In this case, the upper part of the body is removable. In this case, the entrance and exit windows of the housing are equipped with protective grilles. At the same time, there are elements on the body of the device for air disinfection for fixing the device to a wall or ceiling. In some embodiments, the device can additionally be equipped with a filter installed in the inlet window of the housing. In this case, the body of the device can be made of two half-cases. The inner surface of the housing can be made with a shielding coating that reflects UV radiation. In this case, both gas-discharge bactericidal and LED lamps with a radiation spectrum in the ultraviolet region can be used as a source of ultraviolet radiation.

Description

The utility model relates to sanitary and hygienic devices, including disinfectants and can be used for bactericidal disinfection of air using ultraviolet radiation in rooms, as well as in public and route transport.

Known device for disinfection of air in rooms "Obrion" OBRN-1 (https://golfstrimastana.kz/p75904337-obluchatel-retsirkulyator-bakteritsidnyj.html), containing a housing with an entrance window located in its upper part along the edges, intended for air intake , and an exit window equipped with a fan, a source of UV radiation in the spectral range of 205-315 nm, located inside the case, while the entrance and exit windows of the case are equipped with protective gratings.

There is a known device for air disinfection in rooms Ion Master URBO (https://nmj.com.ua/tech/detail.php?hash=4daa2d818c2d4420fd84d70e00d53319) containing a housing with an entrance window located in its upper part along the edges for air intake, and with an exit window equipped with a fan, a source of UV radiation in the spectral range of 205-315 nm, located inside the case, while the entrance and exit windows of the case are equipped with protective gratings.

It should be noted that in the presented devices for air disinfection, the inlet and outlet windows of the housing are made on the front cover in the same plane. In turn, during the operation of the device, the already disinfected air emitted through the outlet window of the housing into the room by a fan installed in the housing of the device, directly into the area in front of the front cover, can be re-drawn inside the housing. Thus, the air flow is looped when using the devices in a confined space, for example, in a room or in the passenger compartment of a vehicle, which leads to a decrease in the volume of air processed by germicidal UV radiation, and as a consequence to a decrease in the efficiency of the device.

The technical result achieved by the claimed technical solution is to increase the efficiency of the device.

The technical result is achieved by the fact that the device for air disinfection comprises a housing with an inlet window located in its upper part along the edges for air intake and an outlet window equipped with a fan, a UV radiation source in the spectral range 205-315 nm, located inside enclosures, protective screens located inside the enclosure in front of the inlet and outlet windows, controls for the operation of the device. In this case, the extreme sections of the upper part of the body at the locations of the inlet and outlet windows are made chamfered, thus, whose inlet and outlet windows of the body are located on the chamfered sections and are oriented in opposite directions. In this case, the upper part of the body is removable. In this case, the entrance and exit windows of the housing are equipped with protective grilles. At the same time, there are elements on the body of the device for air disinfection for fixing the device to a wall or ceiling.

In some embodiments, the device can additionally be equipped with a filter installed in the inlet window of the housing. In this case, the body of the device can be made of two half-cases. The inner surface of the body can be made with a shielding coating that reflects UV radiation. In this case, both gas-discharge bactericidal and LED lamps with a spectrum of radiation in the ultraviolet region can be used as a source of ultraviolet radiation.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 shows a general front view of a device for air disinfection, where 1 is a body; 2 - beveled sections of the upper part of the body; 3 - exit window; 4 - entrance window; 5 - protective grilles; 6 - elements for fastening the device to a wall or ceiling.

FIG. 2. shows a front view of a device for air disinfection, where 1 is a case; 2 - beveled sections of the upper part of the body; 3 - exit window; 4 - entrance window; 5 - protective grilles; 6 - elements for fastening the device to a wall or ceiling.

FIG. 3 shows a rear view of the device for air disinfection, where 1 is the body; 6 - elements for fastening the device to a wall or ceiling.

FIG. 4 shows a bottom view of a device for air disinfection, where 1 is a body; 2 - beveled sections of the upper part of the body; 6 - elements for fastening the device to a wall or ceiling.

FIG. 5. A longitudinal section (view A-A) of a device for air disinfection is presented, where 1 is a body; 2 - beveled sections of the upper part of the body; 6 - elements for fastening the device to a wall or ceiling; 7 - fan, 8 - protective screens; 9 - UV source; 10 - control elements of the device operation.

As shown in FIG. 1 - fig. 5, a device for air disinfection, contains a housing 1 with an inlet window 3 located in its upper part along the edges for air intake and an outlet window 4 equipped with a fan 7, a UV radiation source 9 in the spectral range 205-315 nm, located inside housing 1, protective screens 8 located inside the housing in front of the inlet 4 and outlet 3 windows, control elements for the operation of the device 10. In this case, the extreme sections of the upper part of the housing at the locations of the inlet and outlet windows are beveled, so that the inlet 4 and outlet 3 the windows of the housing 1 are located on the beveled sections 2 and are oriented in opposite directions. Execution of the body of the device in this way eliminates air looping during the operation of the device, thereby increasing the efficiency of its operation. On the body of the device for air disinfection there are elements for fixing the device to a wall or ceiling 6. Inlet 4 and outlet 3 windows of housing 1 are equipped with protective grilles 5.

In some embodiments, the device can additionally be equipped with a filter installed in the inlet window of the housing. In this case, the body of the device can be made of two half-cases, with the front part of the body being removable. The inner surface of the housing can be made with a shielding coating that reflects UV radiation. In this case, both gas-discharge bactericidal and LED lamps with a spectrum of radiation in the ultraviolet region can be used as a source of ultraviolet radiation.

In turn, the inner surface of the housing is made with a shielding coating that reflects UV radiation (not shown in the figures).

It is obvious from the prior art that both gas-discharge germicidal and LED lamps with a radiation spectrum in the range of 205-315 nm can be used as a source of ultraviolet radiation 9. It is also obvious from the prior art that the protective grilles 5 of the inlet and outlet windows of the device can be made as one piece with the body in the form of slots of various geometric shapes, and in the form of overhead grilles.

The device for air disinfection works as follows.

The air taken from the vehicle interior through the inlet window of the housing under the action of the fan draft passes through the gaps formed between the protective screen and the device body and enters the irradiation chamber, conditionally formed between the protective screens, where, under the action of the bactericidal UV radiation from the UV source radiation begins to disinfect from microbes, viruses and other microorganisms. Further, the air treated with bactericidal UV radiation and completely disinfected under the action of the fan thrust passes through the gaps between the protective screen and the device body through the exit window and is directed into the room. At the same time, the original design of the case, where the extreme sections of the upper part of the case at the locations of the inlet and outlet windows are made beveled, so that the inlet and outlet windows of the case are located on the beveled areas and are oriented in opposite directions, eliminates the air flow looping, and as a result increase the efficiency of the device, which ensures the achievement of the claimed technical result.

Thus, the essential features of this technical solution make it possible to exclude the cycling of the air flow, and, as a consequence, to increase the efficiency of the device, which ensures the achievement of the claimed technical result.

Claims (4)

1. A device for air disinfection, containing a housing with an inlet window located in its upper part along the edges for air intake and an outlet window equipped with a fan, a UV radiation source in the spectral range 205-315 nm, located inside the housing, protective screens located inside the housing in front of the inlet and outlet windows, control elements for the operation of the device, characterized in that the extreme sections of the upper part of the housing at the locations of the inlet and outlet windows are beveled, so that the inlet and outlet windows of the housing are located on the beveled areas and are oriented in opposite sides, while the upper part of the housing is removable, while the inlet and outlet windows of the housing are equipped with protective grilles, and there are fastening elements on the housing of the device for air disinfection. 2. A device for air disinfection according to claim 1, characterized in that the body consists of two half-bodies. 3. A device for air disinfection according to claim 1, characterized in that the protective grilles of the inlet and outlet windows of the housing are removable. 4. A device for air disinfection according to claim 1, characterized in that the inner surface of the housing is made with a shielding coating that reflects UV radiation.

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