RU202094U1 - Autonomous device for disinfection of escalator handrail - Google Patents

Abstract

The utility model relates to equipment designed for disinfecting the surface of escalator handrails using bactericidal ultraviolet (UV) radiation. An autonomous device for disinfecting the escalator handrail includes a housing 1, covering a part of the moving handrail 2 of the escalator, inside which a UV radiation source and a control unit 8 are mounted. According to the utility model, the body 1 is divided by a partition 5, forming two chambers - a technological 7, in which the control unit 8 is installed, and an irradiation chamber 9, in which a U-shaped amalgam lamp 10 is mounted at a distance of 50 to 100 mm from the surface of the moving handrail 2, providing the density of UV radiation on the treated surface of the handrail 2 from 10 to 40 mW / cm2. The inner surface of the irradiation chamber 9 is covered with a reflective layer 11. A fan 6 is mounted in the partition 5 between the technological chamber 7 and the irradiation chamber 9. The technical result of the utility model is to increase the efficiency of UV disinfection. 1 wp f-ly, 2 dwg

Description

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

An escalator is a lifting and transport machine in the form of a staircase inclined at 30-35 ° to the horizon, circulating along a certain path with moving steps to move people from one level to another and is used to transport passengers. Passengers on an escalator can safely move to their destination if they hold on to the handrail installed on both sides of the stairs, which, like the stairs, circulates at a constant speed along a certain path. The handrail provided in the escalator is a means of preventing safety accidents that can occur when using the escalator, and contact with the hands of many passengers is inevitable. The handrail is easily contaminated with viruses, bacteria and various foreign substances, such as sweat from the passenger's hand and household dirt.

Currently, there is a need to ensure the sanitary and epidemiological well-being of people in crowded places, including when transporting passengers in large shopping centers, in the subway, airports, etc., where conditions are created for the transmission of infection by contact through the hands. These problems form an urgent need to create modern equipment for effective disinfection of the surface of escalator handrails.

A known irradiator for disinfection of the surface of the escalator handrails with UV radiation (RU 200550, class A61L2 / 10, 28.10.2020), consisting of a body, inside which are installed bactericidal amalgam mercury UV lamps of low pressure mercury, a metal body of the irradiator consisting of interconnected locks of two parts with openings for the entrance and exit of the handrail, made with the possibility of electrical connection of the irradiator with the control cabinet through the connector. Two bactericidal lamps are installed inside the irradiator body at a distance of 8 cm from the surface of the handrail, and the discharge length in the lamps is 84 cm. To create uniform irradiation of the handrail surface, a reflective coating is applied to the inner surface of the feed body. For convection of air through the irradiator, holes are provided in the housing of the irradiator, which are made in such a way that they do not let harmful UV radiation out of the housing. To turn on the UV lamps, an external control signal for the movement of the escalator stairs is used.

The disadvantages of this irradiator include the inconvenience during its installation on the escalator handrail, which requires partial reconstruction, as well as inconvenience during maintenance.

Known installation for disinfecting the surface of escalator handrails with UV radiation, including an irradiator, consisting of a housing, inside which a germicidal UV lamp is installed, and electrically connected to the irradiator of the electronic ballast. The installation also contains a control cabinet and handrail movement sensors electrically connected to the electronic ballast and to each other; the irradiator housing consists of a cover and a base connected to each other, on which a reflector, cooling fans are additionally installed inside the housing 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 housing, and on the outside On the surface of the housing, locks are mounted that connect the cover and the base of the housing, guides for stabilizing the handrail travel relative to the feed, and a connector for connecting the feed to the electronic ballast.

The disadvantage of the known device is the cumbersomeness of the installation, primarily in length, requiring the use of a linear tubular lamp. This unit can be placed in the lower (closed) part of the escalator. The installation and operation of the unit is complex. An escalator is a device of increased danger, therefore any changes in its design require serious approvals, including with the escalator manufacturer.

The prototype of the utility model is a device for cleaning the handrails of an escalator or moving walkway (KR 101231264, class A61L2 / 10, A61L2 / 18, B66B31 / 02, 2013). The device includes a main body containing a part of the escalator handrail or moving walkway, a sterilizing liquid spraying unit made in the main body and sterilizing the handrail surface by spraying sterilizing liquid onto the handrail surface in the form of steam in the direction of a predetermined point, a hot air drying unit provided in housing in a space separated from the sterilizing solution spraying and drying unit of the handrail on which the sterilizing solution is sprayed, an ultraviolet sterilization unit provided in the space separated from the sterilizing liquid spraying unit in the main body and sterilizing the handrail surface by irradiating the dried surface of the handrail with ultraviolet rays, cover to prevent foreign matter from entering the main body on the inlet and outlet sides of the main body through which the handrail enters and exits the main body, as well as to remove foreign matter located on the handrail surfaces and a control unit provided in the main body and controlling a sterilizing liquid spraying unit, a hot air drying unit and an ultraviolet sterilization unit. The casing is removable and mounted on a bracket attached to the escalator or floor next to the inlet or outlet of the escalator handrail on which the moving walkway is mounted. A plurality of compartments are provided inside the main body, so that the sterilizing liquid spraying unit, the hot air drying unit, and the ultraviolet sterilizing unit are disposed in a space separated from each other in the main body.

The disadvantage of this device is the insufficient efficiency of disinfection with UV radiation, which requires additional disinfection of the handrail using liquid sterilizing agents, and, consequently, additional equipment for drying it, which affects the size of the device. A bulky device located near the entrance or exit to the escalator is inconvenient for its users.

The problem of the utility model is the improvement of the autonomous device for disinfection of the escalator handrail. The technical result of the utility model is to increase the efficiency of disinfection with UV radiation.

The problem posed and the specified technical result are achieved due to the fact that the autonomous device for disinfecting the escalator handrail includes a body that covers a part of the moving escalator handrail, inside which a UV radiation source and a control unit are mounted. According to the utility model, the body is divided by a partition, forming two chambers - a technological one, in which a control unit is installed, and an irradiation chamber in which it is mounted at a distance of 50 to 100 mm from the surface of a moving handrail, a U-shaped amalgam lamp providing UV radiation density on the treated surface handrail from 10 to 40 mW / cm ² . The length of the irradiated part of the handrail is from 300 to 600 mm, the irradiation time of the moving handrail is from 0.3 to 1.2 sec. The inner surface of the irradiation chamber is covered with a reflective layer. A fan is mounted in the partition between the technological chamber and the irradiation chamber.

The reflective layer is made on the basis of a composite of fluoroelastomer and aluminum paste.

Dividing the body into two chambers by a partition creates the conditions for the location of the control unit inside the body, simplifying the entire structure, ensuring its autonomy and creating conditions convenient for the escalator users due to its possible placement at the entrance or exit from the escalator.

The use of a U-shaped lamp, for example AHL-3 (or its analogs), as a source of UV radiation, provides a high degree of disinfection of the surface of a moving escalator handrail with a UV radiation density of 10 to 40 mW / cm ² . It has been experimentally established that the indicated density of UV radiation produces guaranteed disinfection of the moving surface of the escalator handrail, while there is no destruction of the handrail material.

The location of the UV radiation source at a distance of 50 to 100 mm from the surface to be treated reduces the direct effect of UV radiation on the handrail, and the reflective layer of the inner surface of the radiation chamber focuses most of the UV radiation and directs the reflected radiation to the surface of the moving handrail. At the same time, the location of the UV lamp closer than 50 mm from the treatment area creates an excessive amount of direct radiation, which can contribute to the destruction of the handrail material, and exceeding the distance of more than 100 mm will entail an increase in the size of the device body, which will occupy a significant place in front of the escalator, interfering with the flow of passengers.

Irradiation of a moving handrail should be carried out in relation to its entire area, there should be no untreated areas, as well as overlit ones, because this affects the surface of the handrail.

The presence of a reflective layer on the entire inner surface of the irradiation chamber contributes to the condition for processing the moving handrail with reflected radiation.

The presence of a fan in the partition between the technological chamber and the irradiation chamber provides cooling of the irradiation chamber, because overheating of the UV lamp and handrail is unacceptable.

The compact arrangement of all elements inside the housing with a choice of accessories provides a high degree of disinfection of the moving escalator handrail with simultaneous simplicity of design, convenient for passengers, as well as during its operation during repair and adjustment work.

The utility model is illustrated by the drawings, where FIG. 1 - a stand-alone device for disinfecting the escalator handrail is presented, side view; in fig. 2 - section along A-A.

An autonomous device for disinfecting the escalator handrail includes a housing 1 that covers part of the moving handrail 2 of the escalator. The body 1 is provided with an inlet 3 and an outlet 4 through which the driving handrail 2 enters the body 1 for disinfection and leaves it. Inside the housing 1, a partition 5 with a fan 6 is mounted, dividing the housing 1 into a technological chamber 7 with a control unit 8 and an irradiation chamber 9. In the irradiation chamber 9, at a distance of 50 to 100 mm, a U-shaped amalgam lamp 10 AGL-3 (or its analogs) with a UV radiation power of 25 to 100 W is mounted. The inner surface of the irradiation chamber 9 is covered with a reflective layer 11 based on a composite of fluoroelastomer and aluminum paste.

An autonomous device for disinfecting the escalator handrail works as follows.

The body 1 of an autonomous device is installed close to the escalator balustrade 12 so that the moving handrail 2 of the escalator enters the inlet 3 of the body 1 and exits the outlet 4, and the edges of the body 1 forming the inlet 3 and the outlet 4 cover the fixing support protrusion 13 on which the handrail 2 is mounted so that the reflective layer 11 of the irradiation chamber 9 covers the entire surface of the handrail 2. The handrail 2 entering the inlet 3 enters the irradiation chamber 9 and is treated with UV radiation with a density of 10 to 40 mW / cm ² . The length of the irradiated part of the handrail 2 is from 300 to 600 mm. When the escalator speed is from 0.5 to 1.0 m / s, the irradiation time of the moving handrail 2 is from 0.3 to 1.2 sec. This time is sufficient to process both the outer surface of the handrail 2 and the sides due to the reflected radiation from the reflective layer 11 based on a composite of fluoroelastomer and aluminum paste. The selected composite for the reflective layer 11 provides conditions for the creation of reflected UV radiation, which prevents a negative effect on the structure of the material of the handrail 2 and is sufficient for disinfecting the moving surface.

Laboratory tests were carried out to establish the biosafety and effectiveness of disinfection of samples of materials from which the escalator handrail is made. The tests were carried out on model test microorganisms with different cell wall structures S'aureus 906, E. coli. 7257, Candida albicans 24433 ATCC and pathogenic biological agents of a parasitic nature, transmitted by contact - taxocara, lambia cysts, cryptosporidium socialists. Based on the test results, it was found that the selected UV source and its location at a distance of 50-100 mm from the surface to be treated provides an effective dose of exposure to the test - microorganisms, at which disinfection is 98.3 - 99.6%, depending on the species biological pathogenic agent.

Also, tests were carried out of an autonomous device for disinfecting the escalator handrail in the conditions of normal operation of the escalator at the Begovaya station, St. Petersburg in relation to sanitary-microbiological and sanitary-parasitological indicators. Samples were taken from the horizontal and lateral surfaces of the entire escalator handrail profile by flushing and by imprinting on plates with differential nutrient agar media. The microbial and parasitic landscape of background contamination of escalator handrails was studied.

It was found that when the device was in normal operation for more than 10 hours with a combined action with preventive disinfection, the average efficiency indicators corresponded to: the general level of microbial contamination -99.96%, bacteria of the Enterobacteriaceae family (coliform bacteria, including E. coli , as well as pathogenic forms of intestinal bacteria) - 98.2%; potentially pathogenic and pathogenic forms of staphylococci - 97.4%; fungi Candida albicans - 93.2%; spore hemolytic gram-positive rods - 96.8. At the same time, the effectiveness of disinfestation against parasitic agents (helminth eggs) corresponded to 100%, parasitic agents on the escalator handrail were not detected in the samples taken. Thus, based on the results of sanitary and hygienic tests of the installation for disinfection of the surfaces of escalator handrails at the Begovaya metro station of the State Unitary Enterprise Petersburg Metro, St. Petersburg, the efficiency of disinfection of potentially pathogenic, pathogenic microorganisms and parasitic agents was established above the normalized value of 70%. In order to ensure the epidemic safety of the passage of passengers and metro workers, an autonomous installation is recommended for equipping escalators.

The utility model is not limited to the presented description, and can be supplemented within the scope of the claims, for example, the reflective layer can be made of fluoroplastic, or anodizable aluminum.

Currently, an autonomous device for decontaminating the escalator handrail is in preparation for serial production.

Claims (2)

1. An autonomous device for disinfecting the escalator handrail, including a body that covers a part of the moving escalator handrail, inside which a UV radiation source and a control unit are mounted, characterized in that the body is divided by a partition, forming two chambers - a technological one, in which the control unit is installed, and an irradiation chamber, in which a U-shaped amalgam lamp is mounted at a distance of 50 to 100 mm from the surface of the moving handrail, providing a UV radiation density on the treated surface of the handrail from 10 to 40 mW / cm ² , the length of the irradiated part of the handrail is from 300 to 600 mm, the irradiation time of the moving handrail is from 0.3 to 1.2 s, and the inner surface of the irradiation chamber is covered with a reflective layer, while a fan is mounted in the partition between the technological chamber and the irradiation chamber. 2. A stand-alone device according to claim 1, characterized in that the reflective layer is made on the basis of a composite of fluoroelastomer and aluminum paste.

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