RU209286U1 - Air recirculator ultraviolet bactericidal - Google Patents

Abstract

The ultraviolet bactericidal air recirculator is a device for air disinfection of a closed type and can be used to create the required sanitary and hygienic conditions in enclosed spaces with a high level of air contamination: in the cabin of urban vehicles, elevator cabins. The technical result consists in creating an anti-vandal design of the recirculator, characterized by effective air disinfection in elevator cabins, vehicle interiors and other enclosed spaces with a high level of air contamination. 4. The body 1 is made in the form of a removable upper part 5 with a central 6 and beveled extreme 7 sections and a base 8. All sections 6, 7 of the removable upper part 5, except for the location of the fan, have a perforation tion 9 in the form of evenly spaced rows of holes. The total area of the perforation 9 in each section 6, 7 of the removable upper part 5 of the body is 25% of its area, while each beveled edge section 7 makes an angle of 30° with the base 8 of the body. The base 8 of the housing is provided with a divider 10 located under the fan and made in the form of a gable roof from two identical inclined planes separated by a rib directed along the axis of symmetry of the recirculator over the entire width.

Description

The utility model relates to electrical devices for air disinfection using ultraviolet radiation, namely bactericidal recirculators, and can be used to create the required sanitary and hygienic conditions in enclosed spaces with a high level of air contamination. Such premises include, for example, urban vehicles, elevator cabins, etc., where it is required to maintain contaminated air at an epidemiologically safe level during a short stay of people or animals in it.

The avalanche-like spread of the coronavirus dictates ever greater demands on the epidemiological safety of the Russian population. Taking into account the mechanisms of transmission of infection and in accordance with the requirements of Rospotrebnadzor, one of the measures aimed at interrupting the transmission of infection is the installation of bactericidal irradiators - closed-type recirculators in public places that provide air disinfection.

All types of elevators are an object of general use and a limited volume, transporting a huge number of people every day. As with public transport, there is a high risk of transmission in elevators. In this regard, the claimed ultraviolet bactericidal air recirculator has been developed.

There are many designs of air disinfection devices of a closed type, in which air disinfection is provided by ultraviolet (UV) irradiation: patent for PM No. 176278, class. A61L 9/20, 2018; patent for PM No. 97271, class. A61L 9/20, 2010; patent for PM No. 131970, class. A61L 9/20, 2013; patent for PM No. 188578, class. A61L 9/20, 2019; patent for PM No. 194640, class. A61L 9/20, 2019; patent for PM No. 131298, class. A61L 9/20, 2013; patent for PM No. 200740, class. A61L 9/20, 2020 etc.

All known designs of air disinfection devices contain a housing with air inlets and outlets, a fan for creating a stream of disinfected air, sources of electromagnetic radiation in the UV range electrically connected to a power source, and are intended for use in office and medical premises and public and route transport . Polluted air is taken from the premises (vehicle interior), passed through the disinfection device and returned back to the premises (vehicle interior).

A feature of the use of autonomous devices for air disinfection in the interiors of land-based urban vehicles, as well as in the elevator cabins of residential buildings, is the fact that the necessary effect of reducing the concentration of microorganisms in the air of these premises should be achieved during the characteristic time spent in them. Therefore, an increase in the rate of air disinfection in these premises, as well as an increase in the efficiency of autonomous air disinfection devices without increasing power consumption, corresponding to the power consumption limits of elevator cabins and public transport, is an urgent task.

An analysis of known technical solutions has shown that a number of well-known autonomous air disinfection devices - recirculators cannot be installed in places where vibration transmission is possible, for example, in vehicles, which limits their scope (US 20020098127, publ. 25.07.2002; patent for PM No. 194040, class A61L 9/20, 2019; patent for PM No. 198997, class A61L 9/20, 2020; patent for PM No. 144349, class A61L 9/20, 2013, etc.), since when using them in vehicles, vibrations transmitted from, for example, a moving vehicle to a known device for decontaminating air can cause its failure, in particular due to a violation of electrical connections, and / or failure of components (devices) of the electrical circuit of a known device, and / or destruction of the source of ultraviolet bactericidal radiation.

A number of well-known technical solutions include filters in the design of the recirculator (patent for PM No. 131298, class A61L 9/20, 2013; patent for PM No. 144349, class A61L 9/20, 2014; patent for PM No. 194640, class A61L 9 /20, 2019 and others). However, with a high performance of the disinfection unit, the filters are either large or (compact filters) have a large aerodynamic resistance, which will require the use of powerful air pumping devices, which will affect the overall dimensions of the device and the electrical power consumed. In addition, many rooms, in particular, vehicle interiors, elevator cabins, have a relatively high dust content in the air. When used in decontamination devices, filters become dirty very quickly and they will need to be replaced frequently.

Known designs of recirculators with inlet and outlet windows of the body, made on the front cover along the edges: device for air disinfection in the premises "Obrion" OBRN-1 (https://golfstrimastana.kz/p75904337-obluchatel-retsirkulyator-bakteritsidnyj.html); indoor air disinfection device Ion Master URBO (https://nmj.com.ua/tech/detail.php?hash=4daa2d818c2d4420fd84d70e00d53319).

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 operation of the device, already disinfected air, which is emitted through the outlet window of the case into the room by a fan installed in the device case, directly into the area in front of the front cover, can be re-drawn into the case. Thus, the air flow is looped when using devices in a closed space, for example, in an elevator cabin or in a vehicle cabin, which leads to a decrease in the volume of air treated with germicidal UV radiation, and, as a result, to a decrease in the efficiency of the device.

In addition, when developing the design of a recirculator intended for public transport and an elevator, it is necessary to ensure its protection from vandalism by some citizens.

The closest in design to the claimed one is a device for air disinfection (patent for PM No. 200740, class A61L 9/20, 2020, prototype), containing a housing, the extreme sections of the upper part of which are beveled. Along the edges of the case, on bevelled sections, the inlet, intended for air intake, and the outlet, equipped with a fan, are located and oriented in opposite directions. Protective gratings, a source of UV radiation in the spectral range of 205-315 nm and control elements for the operation of the device are installed inside the case in front of the input and output windows. The upper part of the housing is made removable, and the base of the housing is provided with fastening elements.

After analyzing the known designs of closed-type recirculators, the author set the task of developing a design for a recirculator intended for use in elevator cabins, vehicle interiors, which ensures effective air disinfection in these rooms.

The technical result of solving the problem is to create a design of the recirculator, which is characterized by efficient operation, which provides air disinfection in elevator cabins, vehicle interiors, which is one of the ways to interrupt the transmission of infection in common areas. In addition, the claimed recirculator can also be used in other small-volume rooms where it is necessary to maintain contaminated air at an epidemiologically safe level during a short stay of people in it, for example, in public toilets, in mobile medical examination stations, etc. This circumstance expands the functionality of the claimed device and the range of known closed-type recirculators for the same purpose.

The problem posed by the utility model is solved by the fact that the ultraviolet bactericidal air recirculator, containing a housing with a fan located inside it, a source of UV radiation in the spectral range of 205-315 nm, while the upper part of the housing is removable with a central and beveled extreme sections, made with perforation , and the base of the housing is provided with fasteners for fastening to the support, is equipped with a removable mounting module, which is three adjacent pockets mounted on a box-shaped base with the possibility of installing a fan in the central pocket, and UV radiation sources in two side pockets. The mounting module with a box-shaped base is installed on the side walls of the upper part of the housing from the inside of the central section, forming a closed cavity between the box-shaped base and the inner surface of the central section, while the ribs of all pockets are parallel to each other and the axis of symmetry of the recirculator, the rotation axis of the fan is perpendicular to the plane of the box-shaped base, and the source of UV radiation is two identical U-shaped lamps of UV radiation, the longitudinal axes of which are parallel to the edges of the pockets. The central section of the upper part of the housing, as well as the beveled extreme sections, is made with perforation, and all sections of the removable upper part have perforation in the form of holes evenly spaced in rows, the total area of which in each section of the removable upper part of the housing is 25% of its area. In this case, each bevelled edge section makes an angle of 30° with the housing base, and the housing base is equipped with a divider installed under the fan, made in the form of a gable roof from two identical inclined planes separated by a rib directed along the axis of symmetry of the recirculator across the entire width of the housing base, and the angle between inclined planes is 150°.

In order to protect the design of the recirculator from vandalism at the location of the fan, the surface of the central section of the removable upper part is made without perforation.

The fastener for fastening to the support when using the recirculator in the vehicle contains shock-absorbing elements.

The solutions used in the design of the new recirculator model take into account the scope of its application and protect the UV lamps and the fan from possible damage, and the passengers of the vehicle and the elevator cabin from the light of the lamps hitting the eyes or exposed skin. The desired effect of reducing the concentration of microorganisms in the air of these rooms is achieved by increasing the efficiency of the claimed recirculator.

The utility model is illustrated by drawings.

Figure 1 shows an ultraviolet bactericidal air recirculator, General view, perspective view; figure 2 shows an ultraviolet bactericidal air recirculator, General view, longitudinal section; figure 3 shows the mounting module installed in it bactericidal lamps of UV radiation U-shaped, axonometric view.

The ultraviolet bactericidal air recirculator is a device for air disinfection of a closed type and contains a housing 1 with a removable mounting module 2 installed inside it, through which a fan 3 and a source of UV radiation 4 are placed in the housing 1.

The body 1 is made in the form of a removable upper part 5 with a central 6 and beveled extreme 7 sections and a base 8. All sections 6, 7 of the removable upper part 5 are perforated in the form of holes 9 evenly spaced in rows. In order to protect the design of the recirculator from vandalism at the location fan, the surface of the central section 6 of the removable upper part 5 is made without perforation. The total perforation area in each section 6, 7 of the removable upper part 5 of the body is 25% of its area, while each beveled edge section 7 makes an angle α=30° with the base 8 of the body.

The base 8 of the housing is provided with fasteners for attaching the device to the support, which, in the case of installing the claimed recirculator on a vehicle, are made with shock-absorbing elements (not shown). In addition, the base 8 of the housing is provided with a divider 10 located under the fan and made in the form of a gable roof of two identical inclined planes separated by a rib directed along the axis of symmetry of the recirculator across the entire width of the base 8 of the housing. The angle between the inclined planes is 150°.

All design parameters are established experimentally, based on the conditions for creating the most efficient air flow at the outlet of the housing 1 of the claimed recirculator.

Housing 1 of the claimed recirculator is made of a material that provides high mechanical strength and resistance to chemical attack. The body of the recirculator can be made of carbon steel sheet St3 in accordance with GOST 380-2005 “Interstate standard. Carbon steel of ordinary quality. Grades" by cold bending followed by powder coating, or from sheet stainless steel 12X18H9 in accordance with GOST 5632-2014 "Interstate standard. Alloyed stainless steels and alloys are corrosion resistant, heat resistant and heat resistant. Stamps" by cold bending without applying powder coating, or from high-impact polystyrene UPS-1002 in accordance with GOST 28250-89 "High-impact polystyrene. Specifications” by vacuum forming.

The high mechanical strength and resistance of the recirculator body to chemical disinfection and the above preferred materials for its production are due to the fact that the recirculator can be installed in places where there is a high probability of its contact with people, for example, in an elevator car and public transport, as well as the need for its regular disinfection.

For ease of assembly during production, repair and maintenance, the recirculator body is made collapsible: with a removable upper part 5 and base 8 of the body 1, while the angle between the inclined planes is 150°.

The removable mounting module 2 consists of three adjacent pockets mounted on a box-shaped base 11: a central one 12 with a hole 13 for installing a fan 3 in it and two identical pockets 14 along the edges for placing UV radiation sources 4 in them. The removable mounting module 2 is fixed by a box-shaped base 11 on the side walls 15 of the upper part 5 of the body on the inside of the central section 6, forming a closed cavity 16 between the box-shaped base 11 and the inner surface of the central section 6.

The inlet window of the recirculator is represented by the central section 6 of the upper part of the housing 5 provided with perforation 9. Due to the original design of the mounting module 2, the recirculator has two sources of UV radiation, two output windows represented by beveled sections 7 of the upper part 5 of the housing, provided with perforation 9.

The air disinfection chamber is represented by pockets 14 with bactericidal lamps of the U-shaped form of UV radiation 4 located in them. The longitudinal axes of the U-shaped lamps 4 are parallel to the edges 17 of the pockets 14.

The ultraviolet bactericidal air recirculator has small dimensions of 600×80×22 mm, high productivity - from 40 to 120 m ³ /h and low (up to 40 dB) noise level.

Air recirculator ultraviolet bactericidal works as follows.

The air taken from the passenger compartment of the vehicle or the elevator cabin passes through the perforation holes 9 made in the central section 6 of the upper part 5 of the housing, under the action of the fan 3 draft and enters the irradiation chamber formed by the pockets 14 of the mounting module 2, where, under the action of the bactericidal flow of UV- radiation from a source of UV radiation - lamps 4 - is disinfected from microbes, viruses and other microorganisms. Further, the air treated with bactericidal UV radiation and completely disinfected, thanks to the design of the divider 10, is divided into two streams by a rib directed along the axis of symmetry of the recirculator across the entire width of the base 8 of the body 1, each of which passes through the perforation holes 9, made on the beveled sections 7 upper part 5 of the body, and goes to the room - the elevator cabin, or the interior of the vehicle, etc.

At the same time, the original design of the mounting module 2 installed in the housing 1 allows you to install two sources of UV radiation in the recirculator housing, increasing the efficiency and productivity of its work, and the presence of a divider 10 in the base 8 of the housing 1 - to divide the flow of disinfected air into two equal flows and direct them in opposite directions, increasing the volume of disinfected air in the room. At the same time, the inlet window, represented by the perforated central section 6 of the upper part 5 of the body, has a sufficient area for suction of a much larger volume of air compared to a window made with a protective grill or with blinds, also increasing the efficiency and productivity of the claimed recirculator. Since the perforated sections 6 and 7 of the upper part 5 of the body, which are the inlet and outlet windows, respectively, are oriented in different planes, air flow cycling is eliminated, which increases the efficiency of the recirculator.

The claimed ultraviolet bactericidal air recirculator is industrially applicable. Its industrial design was made at a domestic enterprise from domestic materials using well-known technological operations. The claimed ultraviolet bactericidal air recirculator can be recommended for creating the required sanitary and hygienic conditions in enclosed spaces with a high level of air contamination: urban vehicles, elevator cabins, etc., where it is required to maintain contaminated air at an epidemiologically safe level during a short stay in him people or animals.

Claims (2)

1. An ultraviolet bactericidal air recirculator, containing a housing with a fan located inside it, a source of UV radiation in the spectral range of 205-315 nm, while the upper part of the housing is removable with a central and beveled extreme sections made with perforation, and the base of the housing is equipped with mounting means for attaching to the support, characterized in that it is equipped with a removable mounting module, which is three adjacent pockets mounted on a box-shaped base with the possibility of installation in the central pocket of the fan, and in two side pockets - a source of UV radiation, while the mounting module is installed with a box-shaped base on the side walls of the upper part of the housing from the inner side of the central section, forming a closed cavity between the box-shaped base and the inner surface of the central section, while the ribs of all pockets are parallel to each other and to the axis of symmetry of the recirculator, the fan rotation axis is perpendicular to the plane of the core rounded base, and the source of UV radiation is two identical U-shaped UV lamps, the longitudinal axes of which are parallel to the edges of the pockets, in addition, the central section of the upper part of the housing is perforated, and all sections of the removable upper part, except for the location of the fan , have perforation in the form of holes evenly spaced in rows, the total area of which in each section of the removable upper part of the case is 25% of its area, and each beveled edge section makes an angle of 30 ° with the base of the case, in addition, the base of the case is equipped with a divider installed under the fan , made in the form of a gable roof of two identical inclined planes separated by a rib directed along the axis of symmetry of the recirculator, while the angle between the inclined planes is 150°. 2. The recirculator according to claim 1, characterized in that the fastener for fastening to the support contains shock-absorbing elements.

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