RU204212U1 - OZONATOR-RECIRCULATOR - Google Patents

Abstract

The utility model relates to devices for producing ozone from air or oxygen using a barrier electric discharge and can be used for ozonizing air in industrial and office premises, agriculture, medicine and food industry. Technical result: providing multifunctional use of one device for ozonization and disinfection The essence of the invention: dielectric pads are fixed on the outer surface of the dielectric tube, the dielectric tube is fixed in the store, made with the possibility of attachment to the bottom of the case, the high-voltage power supply is connected to a step-down transformer, which in turn is connected to an automatic time timer built into the supply break circuits from the power button, the time timer power supply is also included there, while a fan is installed on the inside of the rear wall of the ozonizer body, connected to the time timer power supply, and the power button cheniya is connected to a network wire, made with the possibility of being plugged into a stationary outlet; a germicidal lamp is also installed in the housing, connected to the power button.

Description

The utility model relates to devices for obtaining ozone from air or oxygen using a barrier electric discharge and can be used for ozonizing air in industrial and office premises, agriculture, medicine and food industry.

Known ozonizer (see patent No. 2427528, IPC С01В 13/11, publ. 27.08.2011) containing two highly conductive electrodes connected in an arbitrary manner to a high-voltage source of alternating voltage, forming a gas-discharge gap with dielectric barriers located in it on the electrodes, the electrodes are made high-resistance, and the connection to a high-voltage source consists of current leads evenly distributed over the electrodes with a step that provides a resistance between the current leads of 3 ÷ 5 kΩ, and the location of the current leads of one electrode is shifted by half a step relative to the current leads of the other electrode.

The disadvantage of the known ozonizer is the heating of high-resistance electrodes when a high voltage is applied, which leads to a decrease in the productivity of the ozonizer.

Known tubular ozonizer (see patent No. 2326812, IPC С01В 13/11, publ. 20.06.2008) containing coaxially located electrodes connected to a high-voltage AC source, and a dielectric element located between them, while one of the electrodes is made solid and located on the outer side of the dielectric element, and the second is made in the form of a spiral and is located on the inner side of the dielectric element, the ozonizer also contains a spiral of the inner electrode, wound on a prismatic rod, which is consistently connected regular open polygons, the vertices of which are in mechanical contact with the inner surface of the dielectric element.

The disadvantage of this ozonator is the point concentration of the electric discharge in the areas of direct contact of the vertices of the polygons of the inner electrode with the inner surface of the dielectric element, which leads to heating of the inner space of the tube with a good thermal insulating property of the dielectric and, consequently, to a decrease in the productivity of the ozonizer.

Closest to the proposed ozonizer - recirculator is the ozone generator [see. RF patent No. 155463 according to cl. С01В 13/11, z. 12/23/2014], containing a housing, coaxially located electrodes connected to a high-voltage AC source and a dielectric tube between them, and one electrode is solid and located on the outside of the dielectric tube, and the second electrode is made in the form of a spiral and is located on the inner side of the dielectric tube, characterized in that the body is made of metal, and the outer electrode is made in the form of a thick-walled metal tube and is in electrical contact with the metal body of the ozone generator, through which it is connected to the first grounded pole of the high-voltage AC source, while the body is made sealed with fittings attached to it from both ends, designed to supply air or other oxygen-containing gas and remove ozone-containing gas under excess pressure, and a sealed connector through which an insulated wire passes through which connects the inner electrode to the second high-voltage pole an alternating current source.

In this case, the inner and outer electrodes are installed so that the distance from the ends of the electrodes to the end of the dielectric tube is at least two thicknesses of the dielectric tube wall.

In this case, the distance from the outer surface of the dielectric tube to the inner surface of the metal body is at least one wall thickness of the dielectric tube.

The disadvantages of the closest analogue are low reliability and low manufacturability of its manufacture, due to the fact that, if it is necessary to increase the number of electrodes, simultaneous blowing will be carried out immediately between the external and internal electrodes, which, when pollutants settle on the output part of the dielectric tube, will certainly lead to a discharge, and the device will out of service. In addition, making one of the electrodes in the form of a thick-walled metal tube will increase the mass of the ozone generator, which will cause discomfort when moving the generator.

The task of the utility model is to increase the productivity of the ozonizer - recirculator, expand its functionality by introducing a fan and a bactericidal lamp, setting an automatic timer for shutdown and an increased number of electrodes.

EFFECT: provision of multifunctional use of one device for ozonization and disinfection of a room.

The problem is solved and the technical result is achieved by performing an ozonizer - a recirculator containing a housing, coaxially located electrodes connected to a high-voltage power source and a dielectric tube between them. According to the invention, dielectric pads are fixed on the outer surface of the dielectric tube, the dielectric tube is fixed in a magazine made with the possibility of attachment to the bottom of the case, the high-voltage power supply is connected to a step-down transformer, which in turn is connected to an automatic time timer built into the break of the supply circuit from the button power supply of the time timer is also included, while on the inside of the rear wall of the ozonizer body there is a fan connected to the power supply of the time timer, and the power button is connected to a network wire capable of being plugged into a stationary outlet, the body is also installed germicidal lamp connected to the power button.

The essence of the utility model is illustrated by the drawing, which shows a general view of the ozonizer - recirculator.

The ozonizer - recirculator contains (Fig.) A housing 1, coaxial electrodes 2 and 3, connected to a high-voltage alternating current source 4 and a dielectric tube 5 located between electrodes 2 and 3. On the outer surface of the dielectric tube, dielectric pads 6, a dielectric tube are additionally fixed at the same time, it is fixed in the store 7, made with the possibility of attachment to the bottom of the case 1. The high-voltage power supply 4 is connected to a step-down transformer 8, which in turn is connected to an automatic time timer 9, built into the break of the supply circuit from the power button 10, is also included and a power supply unit 11 of a time timer 9. On the inside of the rear wall of the case 1 of the ozonizer-recirculator there is a fan 12 connected to the power supply unit 11 of the time timer 9. The power button 10 is connected to a network wire 13 configured to be plugged into a stationary outlet. A germicidal lamp 14 is also installed in the housing 1, connected to the power button 10.

One electrode 2, made in the form of a metal thin-walled tube, is located inside the dielectric tube 5, tightly adjacent to the inner wall of the dielectric tube 5, which is muffled on one side, and the second electrode 3 is made in the form of a metal spiral, evenly distributed over the outer surface of the dielectric tube 5. In length, both electrodes are made shorter than the dielectric tube 5 by an amount equal to five to ten times the thickness of the dielectric tube. Both ends of the electrode 3, made in the form of a metal spiral, and placed on the outer surface of the dielectric tube 5, are additionally covered with a dielectric patch 6, which simultaneously serves as an attachment of the electrode 3, made in the form of a metal spiral on the surface of the dielectric tube 5. Electrode 2, made in the form of a thin-walled metal the tube located inside the dielectric tube 5 is held by the inner surface of the dielectric tube 5 due to its tight fit to it. The dielectric tube 5, together with the electrodes 2 and 3, is fixed in the holding store 7, made with the possibility of attachment to the bottom of the housing 1. The store 7 is thus made with the possibility of increasing the number of dielectric tubes 5 installed in it with electrodes 2 and 3. The same electrodes with their simultaneous being in the store 7 are made with the possibility of parallel connection to the high-voltage power supply 4 (alternating current). High-voltage power supply 4 is connected to a step-down transformer 8, which in turn is connected to an automatic time timer 9, built into the break of the supply circuit from the power button 10, the power supply 11 of the time timer 9 is also included there. On the inside of the rear wall of the ozonator housing - The recirculator is equipped with a fan 12, which receives power from the power supply unit 11 of the time timer 9. The power button 10 is connected to a network wire 13 configured to be plugged into a stationary outlet. In this case, the power button 10 is made with the possibility of switching in three positions. The first position is connected to the power supply circuit of the transformer for the high-voltage power supply 4, the central position is to turn off the device, and the second position is connected to the power supply circuit of the germicidal lamp 14 installed in the same housing 1.

The device works as follows:

After turning on the plug of the mains wire 13 and pressing the power button 10 to the "I" position, the power supply unit 11 receives power, which in turn supplies power to the fan 12 and the built-in timer 9, which begins to count down the preset time range for turning off the ozonizer - recirculator, and at the same time supplies power to the step-down transformer 8, which in turn supplies power to the high-voltage power supply 4, from which high voltage is supplied to the coaxially located electrodes 2 and 3 between which, thanks to the located dielectric tube 5, a corona discharge begins to smolder and ozone is formed ... Due to the electrodes 2, 3 and the dielectric tube 5, raised and fixed in the store 7, to the level of passage of the incoming air flow created by the fan 12, the resulting ozone-air mixture is thrown into the treated room. At the same time, people and animals must leave the premises. Due to the fact that the store 7 is fixed on the bottom of the housing 1, and the electrode 3 is fixed on the outer surface of the dielectric tube by dielectric pads 6, the system remains stationary during movement and operation. Since the dielectric tube 5 is plugged on one side, the likelihood of a discharge between the electrodes is extremely low. This additionally prevents the electrode 2 from falling out of the dielectric tube during operation of the device. And the dielectric pads 6, in addition to fixing the electrode 3 on the outer surface of the dielectric tube, create an additional electrical insulating barrier for the occurrence of electrical breakdown between the electrodes. After the built-in timer 9 counts down the set time period, it cuts off the power from the step-down transformer 8 and, respectively, from the high-voltage power supply 4, due to which the high voltage supply to the electrodes stops and the process of ozone formation stops. The button for switching on 10 of the ozonizer - recirculator can then be switched to position "II", while the power will begin to be supplied to the germicidal lamps 14, also installed in the housing 1. In this case, the power supply unit 11 will also receive power, which in turn supplies power to the fan 12 , which will create a stream of air passing through the body, where the air will be cleaned and discharged into the treated room. In this case, people and animals can be in the room. After the end of work, or if necessary, the activation button 10 of the ozonizer - recirculator can be moved to the "O" position and disconnect the plug of the supply mains wire 13 from the mains.

Ozonizer - recirculator can purify the air in the room and at the same time all surfaces using an ozone-air mixture, but subject to safety precautions, which requires that people and animals are not in the room during processing, since ozone belongs to the first class of poisons. A timer 9 installed in the device will allow the device to be turned off after a set period of processing time has elapsed. By default, Timer 9 is set to 30 minutes, since the natural decomposition of ozone to oxygen occurs after 30 minutes. The device of the store 7, in which the electrodes 2 and 3 and the dielectric tube 5 for the formation of ozone are attached, makes it possible to increase the number of simultaneously installed electrodes, which will increase the concentration of the generated ozone. The combination of an ozonizer and a recirculator in one housing allows to reduce the number of devices used for disinfecting premises, since now it is possible to use the same device when people are in the room, which only requires changing the operating mode to "II" on the power button.

So, the declared utility model allows increasing the productivity of the ozonizer - recirculator, expanding its functionality by introducing a fan and

a bactericidal lamp, setting an automatic timer for shutdown and an increased number of electrodes.

In addition, the declared utility model allows for the multifunctional use of one device for ozonation and disinfection of a room, as well as to ensure safety during operation, which contributes to an increase in the efficiency of air disinfection.

Claims (1)

An ozonizer containing a housing, coaxially located electrodes connected to a high-voltage power source, and a dielectric tube located between the electrodes, characterized in that dielectric pads are fixed on the outer surface of the dielectric tube, the dielectric tube is fixed in a store capable of being attached to the bottom of the housing, the high-voltage power supply is connected to a step-down transformer, which in turn is connected to an automatic time timer built into the break of the supply circuit from the power button, the time timer power supply is also included there, while a fan is installed on the inside of the rear wall of the ozonizer body, connected to the power supply unit of the timer, and the power button is connected to a network wire made with the possibility of plugging into a stationary outlet, a germicidal lamp connected to the power button is also installed in the housing.

Images