RU118196U1 - VEHICLE DISINFECTION UNIT FOR UV VIRTUAL RADIATION - Google Patents

Abstract

Installation for disinfection of vehicle air with ultraviolet radiation, containing a housing having an inlet and outlet for an air flow, inside which there is at least one ultraviolet lamp and a device for cleaning the lamp surface, including a guide located along the longitudinal axis of the lamp, on which it is installed a movable element connected to holders inside which cleaning elements are installed, characterized in that the longitudinal axis of the lamp is oriented in the direction of movement of the vehicle, and as a movable element, a load is used that moves freely along the guide under the action of the inertia force that occurs when the speed of the vehicle facilities.

Description

The utility model relates to means for disinfecting air with bactericidal UV radiation and can be used in systems of supply and exhaust ventilation and air conditioning of passenger vehicles, mainly rail.

A known installation for disinfecting air with UV radiation, including in the supply and exhaust ventilation and air conditioning systems of railway transport, is a building having an inlet and an outlet with a bactericidal UV lamp installed inside it. The design of the known device ensures its reliable and efficient operation as a part of vehicles with a high level of vibration (for example, in railway cars): the implementation of stiffening ribs on the housing and mounting of the lamp on vibration damping elements can significantly weaken or dampen the vibrations transmitted to the lamp. However, a disadvantage of the known device is the lack of a system for cleaning the surface of the lamp from contaminants that degrade the efficiency of its radiation. The need for periodic cleaning of the lamp complicates the operation of this installation (RF Patent for Utility Model No. 78074, July 1, 2000, A6L 2/10).

Known UV sterilizer for air conditioning systems in public places, consisting of an open housing, inside which UV lamps are installed, equipped with a device for cleaning the surface. The cleaning device consists of a holder on which an annular scraper is mounted, covering the UV lamp, and connected to a drive holder, by means of which the scrapers move along the lamp. (CN 2722913, A6L 9/20, 2005). A disadvantage of the known device is the design complexity caused by the presence of a drive for moving the cleaning device along the lamp and supplying the energy necessary for it.

The basis of this utility model is the task of creating a simpler to operate and energy-saving installation for air disinfection while maintaining reliability and efficiency when using it in transport.

The technical result achieved by the implementation of the proposed utility model is to simplify the operation and design of the installation for air disinfection of vehicles, as well as reducing energy costs for its maintenance.

The specified technical result is achieved due to the fact that in the installation for disinfecting the air of the vehicle with ultraviolet radiation, comprising a housing having an inlet and an outlet window, inside of which at least one ultraviolet lamp and a device for cleaning the surface of the lamp, including a guide located along the longitudinal axis of the lamp, along which the moving element is connected, connected to the holders on which the cleaning elements (scrapers) are fixed, according to the proposed technical solution, the longitudinal axis of the lamp is oriented in the direction of the vehicle’s movement, and the load is used as a movable element, which moves freely along the guide due to the inertia that occurs when the vehicle’s speed changes.

The utility model is illustrated by the drawing, which shows UV lamps 1 mounted inside the unit on brackets 2 using fasteners 3 and a fixture for cleaning the surface of the lamps, including a guide 4 located along the longitudinal axis of the lamp, on which is placed a freely moving load 5 connected to holder 6, inside of which a cleaning element 7 is installed in the form of a ring covering the surface of the lamp.

Example: An installation for air disinfection with UV radiation is integrated, for example, in the recirculation channel of the ventilation and air conditioning system of a railway passenger car. The flow of recirculating air infected with microorganisms, the direction of which coincides with the direction of train movement, enters from the car through the inlet window in the unit body into the UV irradiation zone formed by two bactericidal lamps, the longitudinal axes of which are also oriented along the direction of train movement. The lamps are fixed by means of vibration damping elements, with the bulbs installed in brackets curved at the bend in the form of a propeller, and the lamp bases in vibration damping bellows. As a source of bactericidal UV radiation, two powerful low-pressure ozone-free low-pressure amalgam lamps of the ANC 215/95 type, U-shaped, specially designed for air treatment are used (RF Patent No. 2322527). Under the action of bactericidal UV radiation, the air is disinfected, removed through the outlet window and fed through the air conditioner fan in the compartment of the car. In the process of air disinfection, dust is constantly deposited on the heating surface of the UV lamp, which absorbs part of the bactericidal radiation, as a result of which the disinfection efficiency is reduced. Periodic cleaning of the surface of the lamps is carried out using a device consisting of a guide located along the longitudinal axis of the lamp, along which the load 5 is freely moved, connected to the holder 6, inside which a cleaning element 7 is installed in the form of a ring wrapping the lamp surface. Since the longitudinal axis of the lamp and the guide are oriented in the direction of the train’s movement, the loads move freely along the guide forward or backward along the lamp under the action of inertia arising from a change in the speed of the train (braking, acceleration), entraining holders with scrapers fixed in them - fluoropolymer rings. Moving along the lamp, the scrapers remove dirt from its surface.

Thus, by using the inertia force to drive the lamp cleaning system, additional energy costs and the need for a special drive are excluded, which is a significant advantage of the proposed utility model.

Claims (1)

An apparatus for disinfecting vehicle air with ultraviolet radiation, comprising a housing having an inlet and an outlet for air flow, inside of which at least one ultraviolet lamp is installed, and a lamp surface cleaning device including a guide located along the longitudinal axis of the lamp on which a movable element connected to holders, inside which cleaning elements are installed, characterized in that the longitudinal axis of the lamp is oriented in the direction of movement of the of the vehicle, and as a movable element, a load is used that moves freely along the guide under the influence of inertia that occurs when the vehicle speed changes.