RU2080285C1 - Ozonizing unit - Google Patents

Abstract

FIELD: production of ozone and air mixture under action of ultraviolet radiation. SUBSTANCE: ozonizing unit includes body, source of ultraviolet radiation supplied from network manufactured in the form of two lamps arranged cross-wise relative to one another and rigidly anchored in insulated supports, fan to blow air through unit is built up at inlet to body. Trapezoidal blades are tangentially anchored on internal side of passage to form directed turbulent stream of air through unit. Release of ozone created along lamps and air mixture is carried out through window in front wall of body. This window is additionally used to scatter part of ultraviolet radiation into surrounding space. EFFECT: enhanced operational efficiency and reliability of ozonizing unit. 2 cl, 2 dwg

Description

 The invention relates to the field of electron-ion technology, namely the production of an ozone-air mixture, and can be used in everyday life for neutralizing air in residential and warehouse premises with ozone and ultraviolet light, neutralizing the surface of a container for storing and transporting food products, processing seed material, and for medical purposes.

 A device is known that contains a source of ultraviolet radiation, a reaction chamber, an intake and exhaust valve [1] Air passing through the chamber, under the influence of a certain part of the spectrum of ultraviolet radiation, is freed from ozone impurities.

 In the proposed device, the productivity of the processed gas is low due to the increased resistance of the gas path, and the presence of an optical filter contributes to the decomposition of ozone.

 The proposed device for producing ozone using ultraviolet radiation solves the problem of increasing the productivity of the treated gas, as well as combining the use of ozone and ultraviolet radiation. The objective is achieved in that the device for producing ozone consists of a housing made in the form of a box, in which an ultraviolet radiation source is integrated along the entire length in the form of two lamps powered from a conventional network, cross-linked to each other and rigidly fixed to their ends in insulating spacers attached to the base of the housing, and at the entrance to the housing there is a fan for blowing air through the entire cross section of the housing. Using trapezoidal blades tangentially located on the inner side of the duct, a directed turbulent gas movement through the device is created, and the output of the resulting ozone-air mixture obtained under the influence of ultraviolet radiation is carried out through a window on the front wall of the housing. In addition, the window is designed to disperse ultraviolet radiation into the environment.

 Figure 1 shows the proposed device; figure 2 section aa in figure 1.

 The housing 1 contains two cross-mounted lamps of ultraviolet radiation 2, mounted in spacers 3, a fan 4, trapezoidal blades 5, a window for the exit of the ozone-air mixture 6. The lamps are supplied from a conventional network through the remote control 7.

 The device operates as follows.

 When the lamps are on, air is supplied by the fan to the device. Under the influence of ultraviolet radiation, ozone is formed in the purged air along the entire length of the lamps. The ozone-air mixture leaves the device through the window 6, which simultaneously serves for the penetration of ultraviolet radiation into the environment.

 Using the above arrangement of the lamps, as well as blowing them with the built-in fan along the entire length, allows to increase the productivity of the device for the ozone-air mixture, and the presence of a window for dispersing radiation to jointly use the influence of ozone and ultraviolet radiation, thereby intensifying the process of neutralizing air, which distinguishes the claimed device from the prototype. Thanks to the blowing, the lamps do not heat up and ozone decomposition is prevented.

Claims (2)

 1. A device for producing ozone, comprising an elongated box-shaped housing with inlet and outlet windows and a fan and an ultraviolet radiation source in the form of a discharge lamp, sequentially placed in the housing, characterized in that the ultraviolet radiation source is provided with an additional discharge lamp, cross-linked to the main discharge lamp, the exit window is made in the side wall of the housing parallel to the installation planes of the discharge lamps along the entire length of the latter, and on the inner surface postglacial walls of the housing are arranged tangentially mounted trapezoidal blades.  2. The device according to p. 1, characterized in that the output window is configured to pass ultraviolet radiation.

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