RU200550U1 - Irradiator for disinfection of the surface of escalator handrails with UV radiation - Google Patents

Abstract

The utility model relates to the field of sanitation and is designed to prevent the threat of transmission of pathogens, including viruses, Staphylococcus aureus (respiratory diseases), Escherichia coli (diseases of the digestive system), microfungi and other pathogenic microorganisms from person to person through the surfaces of escalator handrails, in places of movement of streams of people inside buildings and structures, namely subways, airports, etc. The use of the Unit will reduce the level of infectious diseases, including viral ones, which is especially important during periods of epidemics. The installation consists of an irradiator, the metal body of which consists of two parts interconnected by locks, has openings for the entry and exit of the handrail and a control cabinet connected by an electrical connector to the irradiator. Inside the irradiator there are bactericidal UV irradiators - mercury amalgam lamps. Unlike the prototype, there are no cooling fans in the Unit. The cooling of the handrail is provided by the choice of the irradiator design, which includes special openings for air convection. 1 wp f-ly, 1 dwg

Description

The utility model relates to equipment designed to disinfect the surface of escalator handrails using germicidal ultraviolet (UV) radiation in order to reduce the risk of spreading infections when many people come into contact with the handrails.

As an analogue, a solution was chosen (RF patent No. 2284833, A61L 2/10, A61L 9/20, publ. 10.10.2006), which describes a fast-mounted irradiation unit for irradiating a surface, while the fast-mountable irradiation unit contains a frame for holding the radiation source and a mounting bracket for mounting the specified frame on a surface located near the surface to be irradiated. In this case, the radiation source installed in the frame is kept close to the surface to be irradiated, and the radiation emitted by the radiation source is focused onto the surface by a reflector. The reflector for focusing the radiation is made with the possibility of reversible movement around the radiation source relative to the frame, and the radiation is focused by a narrow strip that scans the surface symmetrically to affect the radiation on the surface. The radiation source is a bactericidal ozone-free or ozonizing lamp.

The disadvantage of this analogue is its focus on disinfection of any surfaces and, accordingly, inability specifically for disinfection of escalator handrails. The disadvantages of this analogue are also significant complexity and high cost.

As a prototype, the RF patent for a utility model (RU 148060, A61L 2/10, A61L 2/24, publ. 20.11.2014) is chosen, which describes an installation for disinfecting the surface of escalator handrails with UV radiation, including an irradiator consisting of a housing, inside of which a bactericidal ozone-free UV lamp is installed, and an electronic ballast unit electrically connected to the irradiator, characterized in that it additionally contains a control cabinet and handrail movement sensors electrically connected to the electronic ballast unit and to each other; the body of the irradiator consists of a cover and a base connected to each other, on which a reflector, cooling fans are additionally installed inside the body together with the UV lamp, as well as protective elements that protect the lamp from contact with the handrail and prevent UV radiation from leaving the body, and The outer surface of the housing contains locks connecting the cover and the base of the housing, guides to stabilize the handrail travel relative to the feed, and a connector for connecting the feed to the electronic ballast. The disadvantages of the prototype include a fundamental technical solution, which necessitates the use of fans for cooling.

The utility model is based on the task of creating an installation for disinfecting escalator handrails, which, while maintaining the processing efficiency, would have a lower cost and would be more convenient in operation due to a constructive solution that does not require the use of fans.

The solution to this problem is ensured by the fact that it is proposed to use an irradiator for disinfecting the surface of the escalator handrails with UV radiation, consisting of a body, inside which bactericidal amalgam mercury UV lamps of low pressure mercury are installed; the metal body of the irradiator consists of two parts interconnected by locks, has openings for the entrance and exit of the handrail and is configured to electrically connect the irradiator to the control cabinet through a connector, characterized in that two germicidal lamps are installed inside the irradiator body at a distance of 8 cm from the surface of the handrail , and the discharge length in lamps is 84 cm; At the same time, for convection of air through the irradiator, holes are provided in the irradiator housing, which are made so that harmful UV radiation does not pass outside the housing, and to turn on the UV lamps, an external control signal for the movement of the escalator staircase is used.

The value of the UV radiation dose (the criterion of the disinfection efficiency) is equal to the product of UV radiation and the exposure time. The exposure time is the quotient of the length of the UV lamp divided by the speed of the escalator handrail.

This utility model and prototype uses amalgam lamps. The outer surface of the UV lamp bulb during operation heats up to a temperature above 100 ° C. The models differ in the length of the UV lamps used, that is, the time of irradiation of the elements of the surface of the handrail.

In the utility model RU148060, to obtain an effective UV dose on the surface of the handrail, one powerful amalgam U-shaped short lamp 50 cm long, located at a distance of 5 cm from the surface of the handrail, is used. The surface of the handrail receives an effective dose of UV radiation, but overheats, which leads to the need to use fans in the irradiator of the unit, which complicates the operation of the unit.

In the present utility model, two amalgam lamps 84 cm long, located 8 cm from the surface of the handrail, are used to obtain the same UV dose on the surface of the handrail. In this case, fans are not used. To prevent overheating of the surface of the handrail, openings for air convection are provided in the design of the irradiator.

This eliminates the need for fans in the installation due to the use of longer amalgam lamps. Indeed, the longer length of the UV lamps makes it possible to increase the irradiation time, therefore, to obtain an effective dose, a lower UV irradiance can be used, that is, the UV lamps can be moved away from the surface to be disinfected.

We have proposed an Installation for disinfection of the surface of escalator handrails with UV radiation. The design of the Unit is shown in Fig. 1, where 1 is the escalator handrail; 2 - the body of the irradiator; 3 - UV lamps; 4 - electronic ballast unit; 5 - reflective coatings of the inner surface of the housing 2; 6 - control cabinet; 7 - connector for electrical connection of the irradiator with the control cabinet.

The installation includes an irradiator consisting of a housing 2, inside which there are two germicidal UV lamps 3, an electronic ballast 4, a control cabinet 6; the metal body of the irradiator 2 consists of two parts interconnected by locks, has holes for the entrance and exit of the handrail and a connector 7 for electrical connection of the irradiator with the control cabinet 6, in which two germicidal lamps 3 are installed inside the body of the irradiator 2 at a distance of 8 cm from the surface of the handrail 1. To create a uniform irradiation of the surface of the handrail 1, a reflective coating 5 is used on the inner surface of the irradiator body 2. In this case, in contrast to the prototype, there are no cooling fans in the installation. Cooling of the handrail 1 in the housing of the irradiator of the installation 2 is provided by air convection due to the provided special holes in the housing of the irradiator 2 of the installation.

The thermal conditions of the installation were tested. With the handrail surface stationary during operation of the UV lamps, the handrail surface temperature was set at 58 ° C. With the UV lamps turned on and simulating the movement of the handrail by blowing air along its surface at a speed of 1 m / s (escalator speed), the surface temperature of the handrail did not rise above 38 ° C.

The UV irradiator is turned on and off automatically. The installation works as follows: an external signal that controls the movement of the handrail arriving at the “External Control” terminals of the control cabinet 6 to turn on the UV lamps 3 is to turn on the power supply, which organizes the movement of the staircase of the escalator. During the movement of the stairway of the escalator and the handrail, the entire surface of the handrail is disinfected with UV lamps 3, with the participation of reflective coatings 5. When the movement of the escalator 1 stops, the power is turned off, there is no external signal and the UV lamps 3 are turned off.

Claims (1)

An irradiator for disinfection of the surface of escalator handrails with UV radiation, consisting of a body, inside of which are installed bactericidal amalgam mercury UV lamps of low pressure of mercury; the metal body of the irradiator consists of two parts interconnected by locks, has openings for the entrance and exit of the handrail and is configured to electrically connect the irradiator to the control cabinet through a connector, characterized in that two germicidal lamps are installed inside the irradiator body at a distance of 8 cm from the surface of the handrail , and the discharge length in lamps is 84 cm; At the same time, for convection of air through the irradiator, holes are provided in the irradiator housing, which are made so that harmful UV radiation does not pass outside the housing, and to turn on the UV lamps, an external control signal for the movement of the escalator staircase is used.

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