RU209283U1 - MOBILE STATION OF VACUUM-OZONE DISINFECTION - Google Patents

Abstract

The utility model is used for disinfection of objects and materials in a separately attached container. Technical result: increased productivity, energy efficiency, versatility. The technical result is achieved by the fact that the mobile vacuum ozone disinfection station, containing the ozone generator connected by a pipe to the first solenoid valve, the vacuum pump, is characterized in that it additionally contains a fitting for connecting the working container, connected to a pneumotee, also connected to the first and second solenoid valves. valves, a vacuum pump is connected to the second solenoid valve, the station additionally contains a pressure pump, the output of which is connected to the inlet of the ozonizer, the control device either switches on the vacuum pump and opens the second solenoid valve or turns on the pressure pump and opens the first pressure valve. Presence of coarse and fine filters after the pressure pump will further increase the durability of the ozonizer. Execution of a mobile station with a housing, inside which are mounted a pressure and vacuum pumps, an ozonizer, connected by pipes. The location on the outer side of the body of the fitting with a control switch and an operation indicator will further improve energy efficiency. The location of fine and coarse filters on the outer side of the housing will allow you to visually determine their clogging, replace or clean them in a timely manner. Valves can be electromagnetic, normally closed.

Description

Known "PLANT FOR OZONIZING SEEDS" RU PM 186258 [1], containing a control unit, an ozone generator with a gas pipeline, an ozone-air mixture outlet device and an air inlet device connected to a fan.

The disadvantage of this method is the low efficiency of ozone treatment, due to the need to displace air with ozone, which reduces the concentration of ozone.

Closest to the claimed technical solution is the "Method of sterilization of attached bacteria by ozone" JP 2751525 [2], containing an ozone generator with a solenoid valve, a vacuum pump connected by pipelines to the processing chamber.

The advantage is the evacuation of air before ozonation, which increases the concentration of ozone and thus the efficiency of the treatment.

The disadvantage of the known device is reduced durability, lack of energy efficiency, narrow scope.

EFFECT: increase in durability, energy efficiency, expansion of the field of application.

The technical result is achieved by the fact that the mobile device for vacuum ozone disinfection, containing an ozone generator connected by a pipe to the first solenoid valve, a vacuum pump, additionally contains a fitting for connecting a working container, connected to a pneumatic tee, also connected to the first and second solenoid valves, to the second a vacuum pump is connected to the electromagnetic valve, the mobile device for vacuum ozone disinfection additionally contains an ozonator pump, the output of which is connected to the input of the ozone generator, the control device is configured to turn on either the vacuum pump and open the second solenoid valve or turn on the ozonator pump and open the first solenoid valve, except In addition, the device for vacuum ozone disinfection contains a housing, inside which an ozonator pump and a vacuum pump, an ozone generator are mounted, connected by appropriate pipes, while a fitting for connecting a working th container is located on the outer side of the housing with a control switch and an operation indicator, while the vacuum-ozone disinfection device contains coarse and fine filters.

Implementation

The figure schematically shows a mobile device for vacuum ozone disinfection, where:

1 - inlet fitting

2 - pneumatic tee

3 - second valve

4 - vacuum pump

5 - first valve

6 - ozonator

7 - fine air filter

8 - coarse air filter

9 - ozonizer pump.

The device operates as follows: a hose of the ozone treatment tank (not shown) is connected to the fitting 1. When the second valve 3 is turned on (opened) and the vacuum pump 4 is turned on, air is pumped out of the ozone treatment tank. In this case, valve 5 is closed.

When the first valve 5 is turned on, valve 3 closes and the ozonator pump 9 turns on, which pumps air through the coarse air filter 8, through the fine air filter 7 and the ozonator 6, while ozone enters the ozone treatment tank.

The implementation of the device with a housing, inside which are mounted pressure and vacuum pumps, ozonator, connected by pipes, will increase the mobility of the device.

The location on the outer side of the body of the fitting with a control switch and an operation indicator will improve energy efficiency, thanks to intuitive control and the elimination of gross errors in device control.

The presence of coarse and fine filters after the pressure pump will further increase the durability of the ozonator, due to the reduction of dust particles sticking to the working elements of the ozonizer.

The location of fine and coarse filters on the outer side of the housing will allow you to visually determine their clogging, replace or clean them in a timely manner, which will further increase the durability of the device.

Valves can be electromagnetic, normally closed, which will reduce energy consumption during pause, waiting for ozone treatment, which will further increase energy efficiency.

The technical result, increased durability, is achieved by the fact that during operation of the device, due to the presence of an electromagnetic valve on the pipe connecting the fitting to the vacuum pump, which is closed during operation of the vacuum pump, significantly less ozone enters the vacuum pump, which prolongs its service life. An increase in energy efficiency is achieved by the fact that the device works alternately with a pressure pump or a vacuum pump, which reduces energy consumption. Expansion of the scope is achieved by the ease of connecting various containers for processing various materials and products through a fitting without changing the configuration of the device.

Industrial Applicability

The proposed technical solution can be successfully used in the production and operation of mobile devices for vacuum ozone disinfection.

Claims (3)

1. A mobile device for vacuum ozone disinfection, containing an ozone generator connected by a pipe to the first solenoid valve, a vacuum pump, additionally contains a fitting for connecting a working container connected to a pneumatic tee, also connected to the first and second solenoid valves, a vacuum is connected to the second solenoid valve pump, the mobile device for vacuum ozone disinfection further comprises an ozonizer pump, the output of which is connected to the input of the ozone generator, the control device is configured to turn on either the vacuum pump and open the second solenoid valve or turn on the ozonator pump and open the first solenoid valve, in addition, the device vacuum - ozone disinfection contains a housing inside which an ozonizer pump and a vacuum pump, an ozone generator are mounted, connected by appropriate pipes, while the fitting for connecting the working tank is located on the outside housings with a control switch and an operation indicator, while the vacuum-ozone disinfection device contains coarse and fine filters. 2. The device according to claim. 1, characterized in that the coarse and fine filters are included between the outlet of the pressure pump and the inlet of the ozonizer. 3. The device according to claim 2, characterized in that the fine and coarse filters are located on the outer side of the housing.

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