RU2306150C1 - Air neutralizing device - Google Patents

Abstract

FIELD: neutralization facility.

SUBSTANCE: water neutralization device can be used for bactericide neutralization of air by means of UV radiation. Device has case with input and output windows. There is radiation chamber inside case. Low-pressure gas-discharge mercury lamps are disposed longitudinal inside radiation chamber. Chamber is provided with input and output labyrinth screens. There is filter in input window and there is fan in output window. Labyrinth screens are made of two profiled partitions disposed symmetrically. One partition is made in form of continuous plate provided with crimp seals, namely, bens at edges; it is mounted at side of radiation chamber to have space relatively side walls of case. Other partition has central axis hole, which is provided at edges with crimp seal, namely, bends; it is mounted at side of window to adjoin side walls of case without space. Main size, namely width of central hole is smaller than main size, namely width of continuous plate.

EFFECT: improved efficiency of neutralization; reduced hydraulic resistance.

4 cl, 1 dwg

Description

The invention relates to disinfectants and can be used to increase the effectiveness of bactericidal air disinfection using ultraviolet radiation.

A device for air disinfection is known from the prior art, comprising a housing with inlet and outlet windows, in which an irradiation chamber with longitudinally placed low-pressure mercury (bactericidal) gas-discharge lamps is provided, equipped with labyrinth screens at the inlet and outlet, and a fan and filter are installed (RU 2153886 C1, A61L 9/20, 2000). The main disadvantage of such a device is the uneven treatment of the air circulating in the irradiation chamber with a bactericidal radiation flux and the increased hydraulic resistance due to the design features of the labyrinth screens.

The invention is aimed at increasing the efficiency of air disinfection and reducing the hydraulic resistance of the device.

The solution to this problem is provided by the fact that in the device for disinfecting air, comprising a housing with inlet and outlet windows, in which an irradiation chamber with longitudinally placed low-pressure mercury (bactericidal) gas discharge lamps is provided, equipped with labyrinth screens at the inlet and outlet, and a fan and the filter, according to the invention, the filter is located in the inlet, and the fan, respectively, in the outlet windows on the end surfaces of the housing, the labyrinth screens consist of two symmetrically arranged laid curved partitions, one of which is made in the form of a continuous plate with a flanging - bends along the edges directed to the window, and installed on the side of the irradiation chamber and with a gap relative to the side walls of the casing, and the other, made with a central hole equipped with flanging at the edges - the bends directed to the irradiation chamber are installed from the side of the window and adjoin the side walls of the housing without a gap, while the determining size - the width of the central hole is less than the determining size - the width of the solid lastin.

In this case, gas-discharge mercury (bactericidal) lamps are made with a maximum of short-wave ultraviolet radiation at 253.7 nm and are equipped with a bulb consisting of glass that filters out the spectral line of 185 nm, with an internal metallized coating.

In addition, an ionizer is additionally installed in the irradiation chamber. In this case, it is possible to place precipitation electrodes in the irradiation chamber, which together with the needle electrodes of the ionizer form an electrostatic precipitator.

The implementation of the labyrinth light shields from two symmetrically arranged figured partitions, one of which in the form of a solid plate overlaps the central hole of the other, ensures uniform distribution of the air flow over the cross section and length of the irradiation chamber and, accordingly, the uniformity of its processing with ultraviolet radiation, which increases the efficiency of disinfection. In addition, due to the reduction of the path length and the coefficient of local resistance, due to the symmetrical arrangement of the partitions, the hydraulic resistance to the movement of the air flow is reduced. The implementation of the bulb of gas-discharge mercury lamps from glass, filtering the spectral line at 185 nm, with an internal metallized coating eliminates the formation of ozone. In addition, the ionizer further disinfects and purifies the air.

The drawing shows a General view of a device for disinfecting air.

The device comprises a housing 1 with input and output windows 2 and 3 on the end surfaces, in which an irradiation chamber 4 with longitudinally placed low-pressure mercury (bactericidal) gas discharge lamps 5 is formed, equipped with labyrinth screens at the inlet and outlet, which consist of two symmetrically relatively longitudinal the axis of the figured light-shielding partitions, one of which is made in the form of a solid plate 6 with a flanging - bends 7 along the edges directed to the window 2 or 3, and installed from the side of the camera 4 irradiation and the other partition 8 is made (for example, annular) with a central hole provided with flanges at the edges - bends 9 directed to the irradiation chamber 4 and attached from the side of the window 2 or 3 to the side walls of the housing 1 without a gap, while determining the size - the width “A” of the central hole is smaller than the determining size — the width “B” of the continuous plate 6. A filter 10 is placed in the input window 2, and a fan 11 is installed in the output window 3. Moreover, the gas-discharge mercury (bactericidal) lamps 5 are made with a maximum short-wave st UV radiation at 253.7 nm and equipped with a flask 12, consisting of glass, filtering the spectral line of 150-185 nm, causing the formation of ozone, with an internal metallized coating, for example, type TUV manufactured by PHILIHS.

In addition, an ionizer with needle electrodes 13 is additionally installed in the irradiation chamber, which can be equipped with precipitation electrodes 14.

A device for ultraviolet air disinfection works as follows.

The disinfected air taken from the room through the inlet window 2 is cleaned of dust in the filter 10, passes between the partitions 6 and 8 of the inlet labyrinth screen and enters the irradiation chamber 4, where it is disinfected by the ultraviolet bactericidal radiation flux generated by low-pressure mercury vapor lamps 5. The treated air between the partitions 6 and 8 of the output labyrinth screen and under the action of the fan 11 is sent to the room. Partitions 6 and 8 of the input and output labyrinth screens prevent ultraviolet radiation from entering through the windows 2 and 3, which allows people to be indoors during air disinfection.

In the operation mode of the device with an ionizer, the needle electrodes of which 13 contribute to the ionization of air, an additional disinfection of air occurs, and when a high voltage is applied to the collecting electrodes 14, an electrostatic precipitator is formed, in the electric field of which particles of dust charged due to ionization near the needle electrodes 13 are deposited on precipitation electrodes 14, which ensures the purification of air from dust.

Claims (4)

1. Device for air disinfection, comprising a housing with inlet and outlet windows, in which an irradiation chamber with longitudinally placed low-pressure mercury discharge lamps is provided, equipped with labyrinth screens at the inlet and outlet, and a fan and a filter are installed, characterized in that the filter is placed in the entrance, and the fan, respectively, in the exit windows on the end surfaces of the case, the labyrinth screens consist of two symmetrically arranged figured partitions, one of which is made in the form of a solid a flush plate with flanges - bends along the edges directed to the window, and is installed on the side of the irradiation chamber and with a gap relative to the side walls of the housing, and another, made with a central hole provided with flanges at the edges - bends directed towards the irradiation chamber, is installed on the side windows and adjoins without a gap to the side walls of the housing, while the determining size - the width of the central hole is less than the determining size - the width of the solid plate. 2. The device for air disinfection according to claim 1, characterized in that the gas-discharge mercury lamps are made with a maximum of short-wave ultraviolet radiation at 253.7 nm and are equipped with a bulb consisting of glass that filters the spectral line at 185 nm, with an internal metallized coating. 3. The device for air disinfection according to claim 1 or 2, characterized in that the ionizer is additionally installed in the irradiation chamber. 4. The device for air disinfection according to claim 3, characterized in that precipitation electrodes are placed in the irradiation chamber, forming an electrostatic precipitator in combination with an ionizer.