RU2600792C1 - Ventilated air recirculator - Google Patents

Abstract

FIELD: ventilation; hygiene.

SUBSTANCE: invention is intended for air disinfection in buildings. Ventilated air recirculator comprises air filter (3) connected with air inlet, fan (2), chamber (4) with ultraviolet lamps (5), and air humidity sensor. Recirculator also includes water pump (15), hydraulic chamber (6) equipped with hydraulic collector (7) with return branch pipe (17) and spray nozzles (8) built into the housing of hydraulic chamber, drain chute (9) which inlet is connected to the hydraulic chamber and is arranged under the nozzles, and outlet is connected to water filter inlet (12). Outlet of the water filter (12) is connected to the inlet of the water pump (15), the outlet of which is connected to the reverse pipe (17), which is connected with hydraulic collector (7).

EFFECT: higher quality and environmental safety of bactericidal treatment of recirculating air in closed rooms.

1 cl, 1 dwg, 1 tbl

Description

FIELD OF THE INVENTION

The present invention is intended for the destruction of pathogenic microflora and various forms of infection of the air pool, indoor, exposure to concentrated ultraviolet radiation, followed by moistening, washing recirculated air and using anolyte disinfectant, which is an environmentally friendly electrochemically activated solution for universal use: for disinfection, pre-sterilization cleaning sterilization and treatment.

The invention relates to the field of sanitary hygiene and electrical engineering and can be used for air disinfection in buildings for various purposes.

State of the art

A device for cleaning recirculated air is known, including means for venting air from an enclosed space, an air duct for directing exhaust air through a unit including an air conditioning unit for air flow, which includes at least one filter for filtering the exhaust air and an air separation unit for passing it through different trajectories with the creation of turbulence in the air stream and preliminary sterilization; section with ultraviolet radiation, designed to irradiate the exhaust air and then return it to the air intake, made with the possibility of communication with the enclosed space, while at least one of the surfaces of the block is covered with an antimicrobial agent. The device is equipped with a ventilation system (see Pat. 2280473 Russian Federation, IPC A61L 9/20, F24f 3/16. Method and device for air purification / Hall Philip; applicant and patentee Mikrodzhiniks tekhnolodzhiz LTD. No. 2003103846/13; application. 11.07. 2001; published July 27, 2006, 6 p.).

The disadvantage of this device is that it does not have a high ability to disinfect the air, as the listed design features do not guarantee the full effectiveness of the healing of the air passing through.

A device for air disinfection is known, comprising a housing with inlet and outlet windows, in which an irradiation chamber with longitudinally placed low-pressure mercury (bactericidal) gas-discharge lamps is provided, equipped with labyrinth screens at the inlet and outlet, and a fan and a filter are installed (see US Pat. No. 2153886). Russian Federation, IPC A61L 9/20. Device for air disinfection / VP Sizikov; applicant and patent holder Sizikov Vladimir Petrovich. No. 99106031/14; application. 29.03.1999; publ. 10.08.2000. 4 pp.).

The disadvantage of this device is the uneven processing of the air circulating in the irradiation chamber with a bactericidal radiation flux, due to the design features of the labyrinth screens.

Known humidifier with improved ultraviolet disinfection, the result is achieved by recirculating water along the tube along a helical path through the ultraviolet block (see US Pat. EP 1600702 A2, IPC A61L 2/10 Humidifier with improved UV disinfection / Karl Bachert ; Applicant Slant / Fin Corporation. No. 20050010379; Applicant. 12.05.2005; publ. 30.11.2005).

The disadvantage of this device is that it does not meet the stated requirements, since the aerosol formed is clean from microorganisms, but does not have the ability to disinfect air.

A device is known for bactericidal treatment of air, containing an ultraviolet radiation source, a focusing element, a filter and a fan, characterized in that the device is additionally equipped with a hub and a hollow specular optical fiber, the filter is transparent to ultraviolet rays and is located between the fan and the optical fiber, and as an ultraviolet source of radiation, an emitter is used, on the surface of which UV lamps are mounted, and between the focusing element and the emitter Air outlets are provided for this. (RU 2355427 C2, A61L 9/20 (2006.01) "DEVICE FOR BACTERICIDAL AIR PROCESSING", author V.A. Turulov p. 4).

The disadvantage of this device is that the device for the bactericidal treatment of air cannot guarantee the quality of air disinfection, since the presence of ultraviolet lamps is not enough to sanitize the air from the pathogenic microorganisms contained in it.

The closest in technical essence and the achieved positive effect and adopted by the authors for the prototype is a high-intensity air purifier containing an air filter connected to the air inlet, a fan, a chamber with ultraviolet lamps (see US Pat. US 8734724, IPC A61L 9/20. High intensity air purifier / Engelhard Rolf, Prescott, AZ (US); Applicant Engelhard Rolf, Prescott, AZ (US); patentee Blutec, LLC, Las Vegas, NV (US) No. 201414252602; claimed 04/14/2014; publ. 05/27/2014. 14 c.).

The disadvantage of this device is its low ability to disinfect air, this is due to the fact that the circulating air in the device undergoes uneven treatment with an ultraviolet radiation stream, where a weak and uneven energy field is created, in which a lethal bactericidal dose is often not provided, which contributes to the mutation of the pathogenic flora, as well as the presence of filters, a catalytic converter and an ultraviolet lamp are not enough to sanitize the air flow, which explains the presence of th effectiveness of the prototype.

Disclosure of invention

The objective of the invention is to develop a ventilated air recirculator with environmental safety, high efficiency, active bactericidal and hydraulic treatment of recirculated air in closed buildings with unorganized air flow, infected with pathogenic and conditionally pathogenic microflora.

The technical result that can be achieved using the present invention is reduced to the environmental safety of the environment, high efficiency, active bactericidal and hydraulic treatment of recirculated air in enclosed buildings with unorganized air flow, infected with pathogenic and conditionally pathogenic microflora.

The technical result is achieved using a ventilated air recirculator containing an air filter connected to the air inlet, a fan, a chamber with ultraviolet lamps, while it is additionally equipped with an air humidity sensor, a water pump, a hydraulic chamber, which is equipped with a hydraulic manifold with a return pipe, with spray nozzles integrated into the housing of the hydraulic chamber, a drainage chute, the input of which is connected to the hydraulic chamber housing and is made under orsunkami, and the output of the drain gutter is connected to the input of the water filter, the last output connected to the input of the water pump, a water pump outlet is connected with a return pipe which is connected with the hydraulic manifold.

Thus, the technical result is achieved due to the fact that the ventilated air recirculator is additionally equipped with an air humidity sensor, a hydraulic manifold that distributes the disinfectant anolyte (see Bahir V.M. Electrochemical activation. M .: All-Russian Scientific Research Institute of Medical Technologies. 1992. 2 h .657 p.) For spray nozzles; to maintain environmental cleanliness, the device is equipped with a closed hydraulic system, which has a water filter for condensate; The ventilated air recirculator is highly effective, actively bactericidal and hydraulically treats the recirculated air in closed buildings with unorganized air flow, infected with pathogenic and conditionally pathogenic microflora, which is facilitated by the presence of a hydraulic chamber and a chamber with ultraviolet lamps.

Brief description of drawings and other materials

The drawing shows a recirculator of ventilated air, a structural diagram.

The table shows the effectiveness of the use of a ventilated air recirculator in a test room.

The implementation of the invention

The vented recirculator consists of a housing 1, housing 1 is equipped with a ballast control system (not shown), which is designed to start and turn off the fan 2, ultraviolet lamps 5, water pump 15, is also equipped with an air humidity sensor (not shown), which is designed to automatically control the relative humidity in the processed room. The housing 1 is equipped with a fan 2, an air filter 3, a chamber 4, inside which UV lamps 5 are symmetrically mounted; also the housing 1 is equipped with a hydraulic chamber 6, which includes a hydraulic manifold 7, spray nozzles 8, a drainage chute 9, an outlet 10 of the drainage chute 9, an inlet 11 of a water filter 12, an inlet water filter 12, an outlet 13 for the water filter 12, an inlet 14 of the water pump 15, the water pump 15, the outlet 16 of the water pump 15, the return pipe 17, while the fan 2 and the air filter 3 are connected to the end (not indicated) of the housing 1, in the cavity (not indicated) of which there is a chamber 4, inside which the ultraviolet is symmetrically mounted lamps 5, at m chamber 4, inside which ultraviolet lamps 5 are symmetrically mounted, is connected in series with a hydraulic chamber 6, spray nozzles 8 extend into the inner surface of the hydraulic manifold 7, the latter are located above the drain trough 9, the outlet 10 of the drain trough 9 is connected to the input 11 of the water filter 12, the outlet 13 of the water filter 12 is connected to the inlet 14 of the water pump 15, and the outlet 16 of the water pump 15 is connected to the return pipe 17, the return pipe 17 is connected to the hydraulic manifold 7.

Recirculated ventilation works as follows.

They include a ballast control system (not shown) that regulates the dose of radiation and disinfection of the air mass by changing the power and spectral ratio of the radiation energy, by controlling the dispersion of the sprayed disinfectant, and the speed of air movement; The air purified in the air filter 3 is treated by a powerful fan 2 in a chamber 4, inside which UV lamps 5 are mounted symmetrically, in the latter conditions are created for the destruction of any pathogenic and conditionally pathogenic microflora. The air filter 3 traps aerosol particles on which pathogenic microflora are present. The concentrated beams generated in the chamber 4, inside which the ultraviolet lamps 5 are symmetrically mounted, allow targeted destruction of microorganisms contained in the air. The recirculated air, bypassing the hydraulic chamber 6, is subjected to additional disinfection, where an environmentally friendly electrochemically activated solution - anolyte is used as a disinfectant, unlike traditional disinfecting and sterilizing solutions, the anolyte disinfectant active ingredients are not xenobiotic substances and do not have a harmful effect on human and animal body. Anolyte is sprayed using spray nozzles 8, while humidifying and washing the recirculated air, which is the final point of air purification from aerosol particles and microorganisms. The operating time of the spray nozzles 8 is carried out using an air humidity sensor (not shown), which is designed to automatically control relative humidity in the treated room. Condensate formed in the hydraulic chamber 6 to maintain environmental cleanliness, without falling into the external environment, flows down the drainage channel 9 and through outlet 10, through inlet 11, enters the water filter 12, where it is cleaned of aerosol particles and impurities. Anolyte purified from aerosol particles and impurities, which has a long duration of 6 months, penetrates through outlet 13 through inlet 14 and, using a water pump 15, moves through outlet 16 by way of a return pipe 17 that is connected to a hydraulic manifold 7. Hydraulic manifold 7 provides uniform distribution of the anolyte in the spray nozzles 8. The cleaned and moistened air after treatment leaves the air through an outlet (not shown).

An example implementation of the proposed device

A prototype of a model of a ventilated air recirculator was made. The ventilated air recirculator is additionally equipped with an air humidity sensor (not shown). The housing 1 is presented in the form of a rectangular parallelepiped, the housing 1 is equipped with a ballast system (not shown), a fan 2 and an air filter 3 are installed at the entrance to the housing 1, which are connected to the end (not indicated) of the housing 1, in the cavity (not indicated) of the housing 1 the chamber 4 is located, inside which the ultraviolet lamps 5 are symmetrically mounted. The chamber 4, inside which the ultraviolet lamps 5 are symmetrically mounted, is connected in series with the hydraulic chamber 6, into which the hydraulic of the collector 7, spray nozzles 8, the latter are located above the drainage chute 9, the outlet 10 of the drainage chute 9 is connected to the inlet 11 of the water filter 12, the outlet 13 of the water filter 12 is connected to the inlet 14 of the water pump 15, and the outlet 16 of the water pump 15 is connected to the return pipe 17, the return pipe 17 is connected to the hydraulic manifold 7.

The use of a model of a ventilated air recirculator made it possible to achieve a positive result (see table) for the destruction of pathogenic and conditionally pathogenic microflora.

The control of the treated air was carried out using the Microorganism trap device (patents No. 2250257; No. 2397242), which has an increased efficiency of trapping microorganisms. This principle is achieved by passing air through the trapping liquid into a cyclone, at the outlet of which a filter is installed that promotes the separation and retention of microorganisms, which leads to their washing off from the surface of the filter by the trapping liquid (see Dmitriev AF, Morozov V.Yu. Microbial research airborne contamination of livestock buildings: guidelines. Stavropol: AGRUS, 2005. - P. 28).

Using the proposed design features, the invention in comparison with the prototype and other known technical solutions has the following advantages:

1. When bactericidal treatment of recirculated air allows you to provide a lethal dose for any microorganisms and spores, with a very small exposure. Ultraviolet rays burn any impurities in the air in a relatively short period of time, which allows you to process large volumes of air in enclosed spaces.

2. The use of an environmentally friendly electrochemically activated solution, anolyte, as a disinfectant, directly excludes the survival of pathogenic microflora and, consequently, further mutation of bacteria that have been processed. The active components of the anolyte disinfectant do not belong to xenobiotic substances and do not have a harmful effect on the human and animal body, the anolyte in terms of acute toxicity when introduced into the stomach and applied to the skin belongs to the 4th class of low-hazard substances according to GOST 12.1.007-76.

3. Two methods of air purification are structurally combined: ultraviolet and hydraulic.

4. Using the device not only in rooms, but also in ventilation shafts allows you to process the incoming air into the premises of various types of purposes.

5. The environmental safety of the environment is maintained by equipping the device with a water filter.

Claims (1)

A ventilated air recirculator containing an air filter connected to the air inlet, a fan, a camera with ultraviolet lamps, characterized in that it is additionally equipped with an air humidity sensor, a water pump, a hydraulic chamber, which is equipped with a hydraulic manifold with a return pipe, with built-in the hydraulic chamber by spray nozzles, a drain chute, the input of which is connected to the housing of the hydraulic chamber and made under the nozzles, and the outlet of the drain chute ba connected to the inlet of the water filter, the last output connected to the input of the water pump, a water pump outlet is connected with a return pipe which is connected with the hydraulic manifold.

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