RU113149U1 - DEVICE FOR DISINFECTING AIR - Google Patents

Abstract

1. A device for air disinfection, comprising a housing with inlet and outlet windows, in which an irradiation chamber with longitudinally placed low-pressure gas-discharge mercury lamps is formed, provided with labyrinth screens at the inlet and outlet, and a power supply unit is installed electrically connected to the control and display unit, at the same time, a filter is placed in the inlet window, and a fan, respectively, is placed in the outlet window, characterized in that the housing is made detachable in the form of a thin-walled box-shaped body of two identical trough-shaped half-bodies connected along the perimeter, including the base and side walls, on the basis of one half-body, which is a carrier, gas-discharge mercury lamps are fixed, and the other half-case is a front panel - a cover, from the side of the irradiation chamber to the base of each half-case are attached symmetrically located central transverse plates with bends along the edges directed towards the window, and from the side of the window to the base of each of the half-case and to the side walls are attached oppositely in one plane by two lateral transverse plates with folds along the edges directed towards the irradiation chamber, the distance between which is less than the width of the central transverse plates, which is less than the width of the transverse dimension of the body, while the central transverse plates and side transverse plates when the half-cases are connected, labyrinth screens are formed with continuous transverse labyrinth partitions, in addition, the power supply is located in the middle zone of the irradiation chamber with a gap between the base of the supporting half-case and the gas-discharge mercury lamps. ! 2.

Description

The utility model 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, which consist of two symmetrically arranged figured 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 is installed on the side of the irradiation chamber and with a gap but the side walls of the casing, and the other, made with a central hole provided with flanges at the edges - bends directed to the irradiation chamber, is installed from the side of the window and adjoins the side walls of the casing without a gap (RU 2306150 C1, A61L 9/20, 2007). In this solution, the signs of the housing and the irradiation chamber are formulated schematically, in a general form, which makes it difficult to choose the location of the power supply necessary for the operation of the device.

It is also known a device for disinfecting air, comprising a housing with an inlet equipped with a filter and an outlet equipped with a fan, windows, in which compartments are formed by labyrinth walls: intake of atmospheric air, its deodorization by ultraviolet radiation and discharge of disinfected air, while the housing is made with a lid, on which additional labyrinth partitions are placed, which prevent the penetration of ultraviolet radiation into the ejection and air intake compartments, the device is equipped with a power unit I, placed in the discharge compartment of disinfected air and electrically connected to it by a unit for indicating the operation parameters of the units of the device, mounted on the cover of the housing in the compartment for atmospheric air intake with the panel exit of the indicating unit to the outer surface of the cover (RU 2416432 Cl, A61L 9/20, publ. 04/20/2011).

However, the placement of the power supply in the discharge compartment of disinfected air in a narrow channel between the labyrinth partitions significantly increases the hydraulic resistance to the movement of the air flow both in the section of the discharge compartment and the air path of the entire device as a whole, which reduces the speed of the air flow through the air deodorization compartment, reduces the intensity its treatment with ultraviolet radiation, increases energy consumption and does not provide intensive cooling of the power supply heated in the volume of the compartment odorization by air. Moreover, in the description of the patent and in the claims are not disclosed signs of the shape of the housing and the lid and it is not clear which additional labyrinth walls are placed on the lid and why they do not interfere with the closure of the lid with the housing.

The utility model is aimed at increasing the efficiency of air disinfection by reducing the hydraulic resistance of the device’s air path and creating a production-friendly, simple and convenient housing assembly.

The solution to this problem is provided by the fact that in the device for disinfecting air containing 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 power supply is installed, electrically associated with the control and display unit, while in the input window there is a filter, and in the output window, respectively, a fan is placed, according to the utility model, the housing is made detachable in in the form of a thin-walled box-shaped body close to an elongated parallelepiped from two identical trough-shaped half-shells connected along the perimeter, including a base and side walls, on the base of one half-shell, which is a carrier, discharge lamps are mounted, and the other half-shell is a front panel - a cover, from the side of the radiation chamber symmetrically located central transverse plates with bends at the edges directed to the window, and from the side of the window are attached to the base of each half-housing and to the base of each half-housing and to the side walls, two lateral transverse plates are fixed in the opposite plane on the same plane with bends at the edges directed to the irradiation chamber, the distance between which is less than the width of the central transverse plates, which is less than the width of the transverse size of the case, while the central transverse the plates and the lateral transverse plates when connecting the half-shells form labyrinth screens with continuous transverse labyrinth partitions, in addition, the power supply is located in the middle zone amers irradiation with a gap between the base bearing half shell and mercury gas discharge lamps.

In this case, the half-shells are made of impact-resistant plastic by injection molding in one mold.

In addition, gas-discharge mercury lamps are made with a maximum of short-wave ultraviolet radiation at 253.7 nm and are equipped with a bulb made of glass that filters out the spectral line of 185 nm.

At the same time, the control and indication unit is installed on the front panel - the cover between the inlet window filter and the first labyrinth partition of the labyrinth screen along the air flow, formed from two lateral transverse plates, with the control and indication panels placed on the outer surface of the front panel - the cover.

The claimed execution of the housing is detachable from two identical trough-shaped half-shells, each of which contains symmetrically arranged transverse plates, which, when connecting the half-shells, form labyrinth screens with continuous transverse labyrinth partitions, makes it possible to make half-shells of plastic, mainly impact-resistant ABS - plastic one mold, which simplifies both manufacturing technology and the assembly process of the housing and the device as a whole. At the same time, placing the power supply in the middle zone of the irradiation chamber between the base of the supporting half-shell with gas-discharge mercury lamps reduces the hydraulic resistance of the air path to the movement of the air flow, increases the cooling rate of the power supply and the efficiency and reliability of the device for air disinfection as a whole.

Figure 1 presents a General view of the bearing half-shell; figure 2 presents a General view of the front panel - covers; figure 3 is a section aa in figure 1.

The device for air disinfection contains a detachable case with inlet and outlet windows 1 and 2, made in the form of a thin-walled box-shaped body close to the elongated parallelepiped from two identical trough-shaped half-shells connected around the perimeter: the carrying half-shell 3 and the front panel - covers 4. Each half-shells 3 and 4 includes a base 5 and side walls 6. An irradiation chamber 7 is formed in the housing with longitudinally placed low-pressure mercury discharge lamps 8 with a maximum of short-wave ultraviolet radiation at 253.7 nm, equipped with a flask of glass, filtering out the spectral line of 185 nm, which are fixed on the bosses 9 with a gap relative to the base 5 on the supporting half-housing 3. From the side of the irradiation chamber 7, symmetrically attached to the base 5 of each half-housing 3 and 4 located central transverse plates 10 with bends 11 at the edges directed to the window 1 or 2, and from the side of the window 1 or 2 to the base 5 of each half-body 3 and 4 and to the side walls 6 are oppositely attached in the same plane two side transverse plates 12 with bends 13 along the edges directed to the irradiation chamber 7, the distance “h” between the lateral transverse plates 12 is less than the width “H” of the central transverse plates 10, and the width “H” is less than the width — the transverse dimension “A” of the body. The central transverse plates 10 and the lateral transverse plates 12, when connecting the half-shells 3 and 4, form labyrinth screens in the body with continuous transverse labyrinth partitions (not shown in the drawing).

In the middle zone of the irradiation chamber 7, a power supply unit 15 is installed on the bosses 14 between the base 5 of the carrying half-shell 3 and the gas discharge mercury lamps 8 on the bosses 14 with a gap relative to the base 5.

A filter 16 is placed in the inlet window 1, which can be made, for example, of a filter cloth or in the form of a carbon filter or combined, consisting of a filter cloth and a charcoal filter, and a fan 17 (or several fans) is located in the outlet window 2.

In addition, on the front panel - the cover 4 between the filter 16 of the inlet window 1 and the first along the air flow labyrinth partition of the labyrinth screen, formed of two lateral transverse plates 12, a control and indication unit 18 is installed, electrically connected to the power supply 15.

A device for ultraviolet air disinfection works as follows.

The disinfected air taken from the room through the inlet window 1 is cleaned of dust and harmful impurities in the filter 16, passes between the labyrinth walls of the inlet labyrinth screen and enters the radiation chamber 7, where it is disinfected by the ultraviolet bactericidal radiation flux generated by low-pressure mercury vapor lamps 8 . The treated air passes between the labyrinth partitions of the output labyrinth screen and, under the action of the fan 17, is directed through the outlet window 2 into the room. The labyrinth partitions of the inlet and outlet labyrinth screens, formed by the central transverse plates 10 and the lateral transverse plates 12, prevent the ultraviolet radiation from entering the room through windows 1 and 2, which allows people to be indoors during air disinfection.

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 power supply unit is installed that is electrically connected to the control and indication unit, at the same time, a filter is placed in the input window, and a fan is located in the output window, characterized in that the housing is detachable in the form of a thin-walled box-shaped body of two connected along the perimeter of identical trough-shaped half-shells, including the base and side walls, on the base of one half-shell, which is the carrier, discharge lamps are fixed, and the other half-shell is a front panel - a cover, from the side of the irradiation chamber, symmetrically located central transverse plates are attached to the base of each half-shell bends along the edges directed to the window, and from the window to the base of each half-housing and to the side walls are attached opposite on the same plane, two more lateral transverse plates with bends along the edges directed to the irradiation chamber, the distance between which is less than the width of the central transverse plates, which is less than the width of the transverse size of the body, while the central transverse plates and lateral transverse plates form labyrinth screens with continuous transverse labyrinth partitions when connecting the half-shells, in addition, the power supply is located in the middle zone of the irradiation chamber with a gap between the base of the supporting half-housing and gas discharge mercury lamps. 2. The device for air disinfection according to claim 1, characterized in that the half-shells are made of impact-resistant plastic by injection molding in one mold. 3. The device for air disinfection according to claim 1 or 2, 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 made of glass that filters out the spectral line of 185 nm. 4. The device for air disinfection according to claim 1 or 2, characterized in that the control and indication unit is installed on the front panel - the cover between the inlet window filter and the first labyrinth partition of the labyrinth screen along the air flow formed from two lateral transverse plates, with placement of the control and display panel on the outer surface of the front panel - the cover.