PL244319B1 - Air purification and conditioning device - Google Patents

Abstract

The subject of the application is a device for air purification and conditioning consisting of a housing (1) with an air inlet (1.1) in the lower part of the housing (1) and an air outlet (1.2) in the upper part of the housing (1), in which the inner surface is covered with a layer photocatalytic, and at the air inlet (1.1) there is an air pre-cleaning filter (2) and an axial fan (3), and a UV-C radiator (4) is mounted axially in the housing (1). The device is characterized by the fact that above the air pre-purification filter (2) there are: - HEPA filter (5), - nozzles (6.1) of the water vapor generator (6), microwave reactor (7), - air conditioner with Peltier cells (8 ), - first axial fan (3), - air blades (9) attached to the inner surface of the housing (1), - UV-C radiator (4), - air filter with activated carbon (10) with liquid drainage, - second fan axial (11). An air conditioner with Peltier cells (8) consists of an air conditioner ring with tapered through holes arranged around its circumference. There are Peltier cells in the holes. The first heat sinks are attached to the surface of the Peltier cells located on the outside of the air conditioner ring. Second heat sinks are attached to the surface of the Peltier cells located on the inner side of the air conditioner ring, directed towards the axis of the air conditioner ring.

Description

The subject of the invention is a device for air purification and conditioning.

Various types of air purification devices are known so far. In these devices, air pollutants are most often separated on various types of filter materials. There are then primary air purification filters made of fibrous materials, whose task is to separate coarser aerosol particles from the air. There are also fine and final filters for cleaning the air from submicrometer particles. In addition to filtration devices, electrostatic air purification devices are also known. These can be both stationary and portable devices. The patent application US3191362A describes an electrostatic purifier in the shape of a cuboid, in which the horizontal air flow is forced by a fan. An electrostatic dust collector of a similar design, with a carrying handle and powered by electricity, is presented in patent applications US3108865A and US4261712A. They use transducer systems for the DC voltage supplying a fan forcing air movement and high-voltage dust collector electrodes. A multi-layer electrostatic-mechanical air filter is presented in the patent description US 7258729B1. It uses a filter material with low air flow resistance, which is placed between several layers of electrodes. The device presented in patent application US 3222848A has replaceable frames with settling electrodes, which are cleaned after a certain period of operation of the device. The air purifier consisting of a frame, a fan assembly and an electrostatic precipitator is presented in patent application US 2013061754A1, and the structure of the electric purification module is presented in the description of patent application CN 112013492A. Air purifiers described in patent applications CN 112058497A and CN 112082224A are also based on the principle of electrostatic purification. In the latter reported solution, internal or external air with suspended aerosol particles is fed into a space where negative ions are continuously released. They cause particles to coagulate and then remove them from the purified air. There are also known designs of electrostatic dust collectors adapted to industrial conditions. The patent description US 6621136B2 presents an electrostatic dust collector having a central high-voltage electrode and a porous material arranged around it retaining charged aerosol particles. The patent application US 3400513A presents an electrostatic dust collector made in the form of a channel constrictor resembling a jet. However, the patent description US 6783575B2 and the patent application US 3798879A present electrostatic filters for cleaning the air inside ventilation ducts. Patent description US 9539586B2 describes a purifier having a generator of negatively charged micro air bubbles with a diameter of about 50 μm or less. These bubbles are passed through an air purification liquid and then neutralized by a positively charged defoaming electrode.

From the patent description US 10940422B2, an air purification device is known, in which air is supplied to the interior of the device through a rotating filter unit. Dirt is removed from the filter unit using an attached vacuum cleaner.

Patent description US 7754158B2 presents an air purifier filtration unit that consists of shaped active planes covered with photocatalytic material or silver nanoparticles. A UV lamp is placed in the hole in the central part of the active surfaces. The air purifier according to the embodiment included in the patent description US 10870078B2 includes a water tank in which a rotating shaft with blades introducing air into the water is mounted diagonally to the water surface.

An air purification device containing a fan and a set of replaceable filters is presented in the patent description US 10711804B2, and in the patent application CN 111765543A such a device is additionally equipped with a module that heats the filtering mesh.

The description of utility model application ES 1260754U presents an air purifier containing a set of various types of filters, including an activated and photocatalytic carbon filter and a UV radiator. The purified and sterilized air is additionally aromatized by spraying citrus-scented liquid into it.

Air purifiers containing a plasma sterilization module are presented in the descriptions of patent applications KR 20200138140A and KR 20200138141A.

An air purifier with a humidification and sterilization function is presented in the description of patent application CN 112146206A, and in the descriptions of patent applications CN 112082231A and CN 112082232A, respectively, a multifunctional air purifier with an adjustable filter module and an air purifier with a movable filter belt are presented.

An air purification device in which air is sucked in by a fan through the lower inlet, cleaned on at least one filtration system containing an ultraviolet UV-C lamp and discharged through the upper outlet is presented in the description of utility model ES 1248424Y. The description of patent application DE 102005026413A1 presents an air purification device consisting of parts for preliminary, main and final air purification. The pre-cleaning part includes, among others, a fan, a pre- and fine filter and an element emitting UV radiation. The main purification part includes replaceable activated carbon filter units. In the final purification part, the air is further cleaned and conditioned.

The description of utility model DE 202014101065U1 presents a filtration device whose task is to remove various types of aerosol pollutants from the air. The device includes a part that reduces air humidity, which is located before the electric filter and subsequent air purification modules.

The Lumeelamp catalog offers dual-function devices for sterilizing indoor air and surfaces using UV-C radiation. Devices with additional modules in which air purification is carried out by photocatalysis are also presented.

The aim of the invention is to purify and sterilize the air and shape its parameters that determine the thermal comfort in the room. This is achieved by removing fine aerosol particles from the air, including microorganisms and volatile organic compounds (VOCs), and heating or cooling, humidifying or drying, and introducing fragrances into the air.

The subject of the invention is a device for air purification and conditioning consisting of a housing with an air inlet in the lower part of the housing and an air outlet in the upper part of the housing, in which the internal surface is covered with a photocatalytic layer. The air inlet contains an air pre-cleaning filter and an axial fan, and a UV-C radiator is mounted axially in the housing. The essence of the invention is that above the air pre-cleaning filter there are:

- HEPA filter,

- steam generator nozzles,

- microwave reactor,

- air conditioner with Peltier cells,

- the first axial fan,

- air guides attached to the inner surface of the housing,

- UV-C 4 radiator,

- air filter with activated carbon 10 with liquid drainage,

- second axial fan.

An air conditioner with Peltier cells consists of an air conditioner ring with tapered through holes arranged around its circumference. There are Peltier cells in the holes. The first heat sinks are attached to the surface of the Peltier cells located on the outside of the air conditioner ring. Second heat sinks are attached to the surface of the Peltier cells located on the inner side of the air conditioner ring, directed towards the axis of the air conditioner ring.

In solution options:

The first axial fan and the second axial fan as well as the steam generator and the air conditioner with Peltier cells are connected to the control module.

In front of the activated carbon air filter inside the housing there is a first air velocity sensor and an air temperature sensor, while above the activated carbon air filter inside the housing there is a second air velocity sensor and an air humidity sensor, which are connected to the control module.

A beneficial effect of the invention is that the outdoor air or the air in the room where the users stay and where the device subject to the invention is located is cleaned of various types of solid, liquid and gaseous pollutants as well as bioaerosol pollutants. The air has the desired temperature and humidity. The perceived air quality is also improved.

The subject of the invention in an embodiment is shown in a schematic drawing, in which Fig. 1 shows the device in a perspective view, Fig. 2a - cross-section of the device along the line A-A, Fig. 2b - detail B from Fig. 2a.

The air purification and conditioning device in the embodiment shown in the drawing consists of a round steel base with a diameter of 250 mm and a thickness of 20 mm, to which a cylindrical casing 1 made of PVC-U with an internal diameter of 120 mm and a height of 960 mm is attached. . The inner surface of the housing 1 is covered with a photocatalytic layer in the form of TiO2 nanoparticles with an average size of 21 ± 5 nm distributed by the 3D-nano company. In the lower part of the casing 1, at the air inlet 1.1, there are twenty-four symmetrically arranged air inlet openings, above which, inside the casing 1, there are placed an air pre-purification filter 2, a HEPA filter 5, water vapor nozzles 6, a microwave generator 7, and an air conditioner with Peltier cells. 8, the first axial fan 3, air blades 9 attached to the inner surface of the housing 1, UV-C radiator 4, activated carbon air filter 10 with liquid discharge and the second axial fan 11. The pre-cleaning air filter 2 is a G4 filter fabric compliant with PN-EN ISO 16890 standard, 10 mm thick. The 25 mm thick multi-layer HEPA 5 filter consists of 1 layer of glass fibers with silver nanoparticles adapted to the internal dimensions of the housing and a layer of non-woven fabric soaked in iodine solution. The nozzles 6a of the steam generator 6 are mounted in the wall of the housing 1. The steam generator is an ultrasonic steam generator LB 88 from BEURER. The microwave reactor 7 uses a metal flow chamber adapted to the internal dimensions of the housing 1 with a microwave radiation magnetron with a frequency of 2450 MHz and a power of 1250 W. The air conditioner with Peltier cells 8 is a thermoelectric heating and cooling module powered from an external source. It is made up of tapered through holes arranged around the circumference of the air conditioner ring 8.1. These holes contain Peltier 8.2 cells, which are three-stage TES3-046013 modules distributed by ARIZO. The first copper heat sinks 8.3 are attached to the surface of the Peltier cells 8.2 located on the outer side of the air conditioner ring 8.1. Second heat sinks 8.4 made of copper are attached to the surface of the Peltier cells 8.2 located on the inside of the air conditioner ring 8.1. The first 3-axis axial fan is the VO120 fan from VENTOX with adjustable rotation speed and a maximum capacity of 150 m ³ /h. The air guides 9 are attached to the inner surface of the housing 1 and are made of thermally stabilized and UV-resistant PA6 G material distributed by the TERMOPLASTIK company. The UV-C 4 radiator is a Philips TUV PL-L 36W 2G11 UV-C fluorescent lamp emitting electromagnetic radiation waves with a length of 254 nm. The air filter with activated carbon 10 with liquid drainage is a multi-layer structure containing a SARATECH layer in the form of small balls made of various polymers and a 15 mm thick H14 class filter fabric impregnated with ChemTech activated carbon. This filter is combined with a condensing air dryer used to separate and remove liquids, which is made of adapted elements of the DC18 Ecoair dehumidifier with an evaporator and condenser and is connected to the condensed liquid tank. The second axial fan 11 is the VO120 fan from VENTOX with adjustable rotation speed and a maximum capacity of 150 m ³ /h. Above the second axial fan 11, there is an air outlet 1.2 in the form of concentrically arranged holes in the upper part of the casing 1. Inside the casing 1, in front of the air filter with activated carbon 10, there is the first air speed sensor 13 and an air temperature sensor 14, and above the air filter with carbon active 10 there is a second air speed sensor 15 and an air humidity sensor 16. The air speed sensors 13 and 15 are PAV3015D sensors from Posifa Technologies. The air temperature sensor 14 is a Pt1000 resistance sensor, and the air humidity sensor 16 is a TL2216 sensor from DeLonghi. The two air speed sensors 13 and 15, the air temperature sensor 14, the air humidity sensor 16 and the first axial fan 3 and the second axial fan 11, as well as the steam generator 6 and the Peltier air conditioner 8 are connected to the control module 12, which contains, among others, including the AVT5425 control and measurement element with a USB interface and the AVT1855 fan controller.

The operation of the air purification and conditioning device presented in the embodiment is based on the fact that after switching on the power supply, the first axial fan 3 sucks air through the holes in the air inlet 1.1 and delivers it to the air pre-purification filter 2. After initial cleaning of coarse aerosol particles, the air is directed to a multi-layer HEPA 5 filter, where it is more thoroughly purified from aerosol and bioaerosol particles. Next, the air is humidified through the nozzles 6a of the steam generator 6 and subjected to the biocidal effect of microwave radiation in the microwave reactor 7, which resulted in a 4-log reduction in the number of viruses. Then, the air passing through the air conditioner with Peltier 8 cells is cooled or heated. The cooling or heating of the air depends on whether the second heat sinks 8.4 are connected to the "hot" side of the Peltier cells 8.2 and release thermal energy into the air or whether they are connected to the "cold" side of the Peltier cells 8.2 and absorb thermal energy from the air. The determination of the sides of Peltier cells 8.2 depends on the direction of the current flowing through them. In the above-described heat exchange methods, the first heat sinks 8.3 are then connected to the "cold" side - absorbing heat from the environment, or to the "hot" side - releasing heat to the device's surroundings. Then, using the first axial fan 3, air at the desired temperature is moved in the casing 1 and on the air blades 9, set into swirling motion around the UV-C radiator 4. During this movement, the air is sterilized by UV-C radiation, and upon contact with the photocatalytic layer covering the inner surface of the housing 1 is photocatalytically cleaned. Microorganisms are removed from the air with 99% effectiveness. The concentration of volatile organic compounds (VOCs) is also reduced by 98%. The sterilized and purified air is then directed to an activated carbon air filter 10 with liquid drainage. Here it undergoes final cleaning and then, using the second axial fan 11, it is discharged into the room through the holes at the air outlet 1.2. The measured air velocities before and after the activated carbon air filter 10 with the first air velocity sensor 13 and the second air velocity sensor 15 respectively, as well as the measured temperature and humidity using the air temperature sensor 14 and the air humidity sensor 16 are transmitted to the control device 12. They are This is the basis for appropriate control of the speed of the first axial fan 3 and the second axial fan 11 as well as air humidification through the nozzles 6a of the steam generator 6, as well as heating/cooling the air in the air conditioner with Peltier cells 8 so that the air purification and conditioning process is carried out in accordance with assumptions and achieved the required effectiveness. The device continuously cleans, sterilizes and conditions and improves the quality of indoor air in the room. Controlling the rotational speed of axial fans 3 and 11 allows you to increase or decrease the time the air stays in the zone exposed to UV-C radiation. Air humidification control optimizes the effectiveness of microwave radiation to inactivate bioaerosols and affects the effectiveness of air purification and sterilization as well as the efficiency of the process.

List of markings

- case

1.1 - air intake

1.2 - air outlet

- air pre-cleaning filter

- the first axial fan

- UV-C radiator

- HEPA filter

- steam generator

6.1 - nozzle

- microwave reactor

- air conditioner with Peltier cells.2 - Peltier cell

8. 3 - first heat sink

8. 4 - second heat sink

- air guide

- activated carbon air filter with liquid drainage

- second axial fan

- control module

- the first air speed sensor

- air temperature sensor

- second air speed sensor

- air humidity sensor

Claims (3)

1. Air purification and conditioning device consisting of a housing (1) with an air inlet (1.1) in the lower part of the housing (1) and an air outlet (1.2) in the upper part of the housing (1), the inner surface of which is coated with a photocatalytic layer , and at the air inlet (1.1) there is an air pre-cleaning filter (2) and an axial fan (3), and in the casing (1) a UV-C radiator (4) is mounted axially, characterized in that above the air pre-cleaning filter ( 2) there are: - HEPA filter (5), - nozzles (6.1) of the steam generator (6), - microwave reactor (7), - air conditioner with Peltier cells (8), - first axial fan (3), - air guides (9) attached to the inner surface of the housing (1), - UV-C radiator (4), - air filter with activated carbon (10) with liquid drainage, - the second axial fan (11), or the air conditioner with Peltier cells (8) consists of an air conditioner ring (8.1) with narrowing through holes arranged on its circumference, where the holes contain Peltier cells (8.2), and the surface of the cells First heat sinks (8.3) are attached to the Peltier cells (8.2) located on the outer side of the air conditioner ring (8.1), while second heat sinks (8.4) directed towards axis of the air conditioner ring (8.1). 2. The device according to claim 1, characterized in that the first axial fan (3) and the second axial fan (11) as well as the steam generator (6) and the air conditioner with Peltier cells (8) are connected to the control module (12). 3. The device according to claim 1, characterized in that in front of the activated carbon air filter (10) inside the housing (1) there is a first air speed sensor (13) and an air temperature sensor (14), and above the activated carbon air filter (10) inside the housing (1). ) there is a second air speed sensor (15) and an air humidity sensor (16), which are connected to the control module (12).