RU204048U1 - Air disinfection device - Google Patents

Abstract

The utility model relates to equipment for disinfecting air treatment using ultraviolet radiation, and is aimed at increasing the efficiency of disinfection. A device for air disinfection, containing a box-shaped housing, with inlet and outlet windows, in which germicidal gas-discharge mercury lamps and a power and control unit are installed, and at the exit from the case there are fans, with the fans installed in the fan panel, which is fixed at the exit from the case, and the exit window of the case is equipped with a protective cover, in which outlet windows are made coaxially with the fans and provided with annular shells.

Description

The utility model relates to equipment for disinfecting air treatment using ultraviolet radiation, and is aimed at increasing the efficiency of disinfection.

A device for air disinfection is known from the prior art, comprising a box-shaped housing with inlet and outlet windows, in which germicidal gas-discharge mercury lamps and a power supply and control unit are installed, and fans are located at the outlet of the housing (RU 2506501 C1, F24F 3/16, 2014 ). At the same time, in the gap between the fans and the outlet window of the case, due to the interaction of adjacent air flows pumped by the fans, “dead” zones of turbulence appear, which reduces the efficiency of air movement (pumping) and, accordingly, the efficiency of the device for air disinfection as a whole.

The technical result, which the utility model is aimed at, is to increase the efficiency of the device for air disinfection.

The solution to the problem with the achievement of the claimed technical result is ensured by the fact that the device for air disinfection, containing a box-shaped housing, with inlet and outlet windows, in which germicidal gas-discharge mercury lamps and a power supply and control unit are installed, and fans are located at the outlet of the housing, according to utility model, the fans are installed in the fan panel, which is fixed at the outlet from the housing, and the outlet window of the housing is equipped with a protective cover, in which the outlet windows are made coaxially with the fans, provided with annular shells.

In addition, the outlet windows of the protective cover are provided with protective grilles, and the protective cover is removable.

The declared presence of annular shells on the outlet windows of the protective cover ensures the formation of independent air flows from the outlet of each axial fan and directing them directly to the corresponding outlet windows of the protective cover, which excludes their interaction and turbulent mixing, reduces the hydraulic resistance at the outlet from the casing and increases the total performance of the fans up to 15 ÷ 20% and, accordingly, increases the efficiency of the device for air disinfection.

The drawing shows a general view of a device for air disinfection.

The device for air disinfection contains an elongated box-shaped body 1, close to a flat parallelepiped (the width - the front and rear walls is greater than the depth - the side walls), in which, preferably, three gas-discharge mercury lamps 2 are installed longitudinally, the axes of which are located in one plane parallel to the longitudinal the axes of the housing 1 and the front (rear) wall, and the power and control unit 3 located in the shielding compartment 4. At the exit from the housing 1, a fan panel 5 is fixed, in which axial fans 6 (preferably three) are installed, the axes of which are located in one plane parallel to the longitudinal axis of the housing 1 and the front (rear) wall, and the outlet window 7 of the housing 1 is equipped with a removable protective cover 8, in which the outlet windows 9 are made coaxially with the fans 6, provided with annular shells 10 and protective grilles 11.

At the entrance to the housing 1, preferably, a filter 12 can be installed, which retains dust and solid particles, and the inlet window 13 can be equipped with a protective grill 14.

Alternatively, labyrinth light-shielding screens 15 can be placed at the entrance and exit of the housing 1 of the device for air disinfection, excluding the penetration of ultraviolet radiation into the room.

In addition, the removable protective cover 8, the annular shells 10 and the protective grilles 11, as well as the walls of the housing 1, the shielding compartment, the protective grill 14 and the labyrinth light shields 15 can be made by injection molding from impact-resistant ABS plastic, including with antimicrobial additives, which are used, for example, biomodifiers, which are active components of plastic that ensure surface sterility and destroy odor (see, for example, well-known additives, including those based on silver nanoparticles or silver ions, from: Ralph D. Maer , Michael Schiller, Additives to polymers, Handbook / Translated from English, Edited by VB Uzdensky, AO Grigorov - SPb: Professiya Publishing House, 2010 - pp. 623-628, 631- 634. 643-647; or RU 104835 U1, A47G 19/00. Publ. 27.05.2011; or, for example, additives of the AlphaSan MB 32 PPADPP Milliken & Company brand), which additionally provides disinfecting, disinfecting air treatment. In this case, the walls of the housing 1, the shielding compartment 4 and the labyrinth light-shielding screens 15 to increase the efficiency of ultraviolet disinfection can be provided with a metallized coating (not shown in the drawing).

The claimed device for air disinfection works as follows.

The processed air, transported by axial fans 6, is taken from the room through the inlet window 13, passing through the filter 12, is cleaned of dust and solid particles, and enters the housing 1 of the device, where it is disinfected under the influence of ultraviolet radiation generated by bactericidal gas-discharge mercury lamps 2 connected to the power supply and control unit 3. At the outlet of the fans 2, passing through the coaxially located annular shells 10 of the protective cover 8, the treated air is directed by independent flows into the outlet windows 9 and exits through the protective grilles 11 from the device for air disinfection into the room.

The placement of the annular shells 10 on the outlet windows 9 of the protective cover 8 excludes the interaction of the outgoing air flows created by three axial fans 6 longitudinally installed in one plane at the outlet of the housing 1, and reduces the hydraulic resistance, which, in combination with a similar longitudinal placement in one plane of three gas-discharge mercury lamps 2, increases the flow rate of air pumped through the claimed device and, accordingly, increases the efficiency of disinfection.

Claims (2)

1. A device for air disinfection, containing a box-shaped casing, with inlet and outlet windows, in which germicidal gas-discharge mercury lamps and a power supply and control unit are installed, and fans are located at the outlet of the casing, characterized in that the fans are installed in a fan panel, which is fixed at the exit from the case, and the exit window of the case is equipped with a protective cover, in which the outlet windows are made coaxially with the fans and provided with annular shells. 2. The device according to claim 1, characterized in that the protective cover is removable.

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