PL244157B1 - Controlled indoor air cleaner and sterilizer - Google Patents

Abstract

The subject of the invention is a controlled device for purifying and sterilizing internal air 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 internal surface is covered with is a photocatalytic layer, and above the air inlet (1.1) there are an air pre-cleaning filter (2), an axial fan (3) and an axially mounted UV-C radiator (4). It is characterized by the fact that an electrostatic filter (5) is mounted above the first axial fan (3), above which air vanes (6) are attached to the inner surface of the housing (1), and a filter is located above the UV-C radiator (4). air with activated carbon (7) and an air ionizer (8).

Description

Description of the invention

The subject of the invention is a controlled device for purifying and sterilizing indoor air.

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 converter systems for the DC voltage supplying the 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 air microbubbles with a diameter of approximately 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 disinfected 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 disinfecting 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 the controlled cleaning of indoor air from aerosol pollutants, including small particles, volatile organic compounds and various types of allergens, as well as fungi, bacteria and viruses. The purpose of the invention is also to ensure appropriate sterility of this air.

The subject of the invention is a controlled device for purifying and sterilizing internal air, 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, and an air pre-cleaning filter is placed above the air inlet. , an axial fan and an axially mounted UV-C radiator. Its essence is that an electrostatic filter is mounted above the first axial fan, with air guides attached to the inner surface of the housing, and above the UV-C radiator there is an air filter with activated carbon and an air ionizer.

Additionally, the air guides are covered with a photocatalytic layer.

There is a second axial fan above the UV-C radiator.

In front of the air filter with activated carbon inside the housing there is the first air speed sensor, and above the air filter with activated carbon inside the housing there is a second air speed sensor, which are connected to the control module. The first axial fan and the second axial fan are also connected to the control module.

A beneficial effect of the invention is that the indoor air is cleansed of various types of pollutants. In addition, the air is sterile. Inhaled indoor air does not pose any threats and its perceived quality is improved.

The subject matter of the invention in an embodiment is shown in a schematic drawing in perspective.

The controlled device for purifying and sterilizing internal air in the embodiment shown in the drawing consists of a round steel base with a diameter of 250 mm, to which a cylindrical casing 1 made of steel with an internal diameter of 120 mm and a height of 790 mm is attached. The inner surface of the housing 1 is covered with a photocatalytic layer in the form of TO2 nanoparticles with an average size of 21 ± 5 nm distributed by the 3D-nano company. In the lower part of the casing 1, there are twenty-four symmetrically arranged air inlet holes 1.1, above which there is a preliminary air purification filter 2, the first axial fan 3, an electrostatic filter 5, air vanes 6 attached to the inner surface of the casing 1 and an axially placed UV radiator. -C 4. The initial air purification filter 2 is a G4 filter fabric adapted to the dimensions of the housing, in accordance with the PN-EN ISO 16890 standard, with a thickness of 15 mm. The first axial fan 3 is an adapted axial fan

AGE12038_24U by JEEK with adjustable speed. As an electrostatic filter 5, a set of low-voltage charging electrodes - 0.6 kV is used to ionize air pollution particles, which are copper flat bars arranged parallel to the direction of air flow. The settling electrode is a negatively charged filter mesh for neutralizing and filtering particles. Air guides 6 are made of thermally stabilized and UV-resistant PA6 G material distributed by TERMOPLASTIK and covered with a photocatalytic layer. The UV-C 5 radiator is a Philips TUV PL-L 36W 2G11 UV-C fluorescent lamp with an emitted wavelength of 254 nm. Above the UV-C radiator 4 there is an air filter with activated carbon 7, class F9 in accordance with the PN-EN ISO 16890 standard, 15 mm thick, and above it there is an air ionizer 8 in the form of a set of small-capacity capacitors consisting of negatively charged needles. and positively charged copper plates arranged around the perimeter of housing 1 and connected via the MCT ZA 30 120 E16 transformer to the power source. Above the ionizer 8 there is a second axial fan 9, which is an AGE12038_24U axial fan from JEEK with adjustable rotational speed. The air outlet 1.2 is located above the second axial fan 9. Inside the housing 1, before and after the activated carbon air filter 7, there are the first air speed sensor 10 and the second air speed sensor 11, respectively, which are PAV3015D sensors from Posifa Technologies. Both air speed sensors 10 and 11 as well as the first axial fan 3 and the second axial fan 9 are connected to the control module 12, which includes, among others, the AVT5425 control and measurement element with a USB interface.

The operation of the controlled device for purifying and sterilizing internal air shown in the embodiment is that, after switching on the power supply, the first axial fan 3 sucks air from the room through the holes in the air inlet 1.1 and delivers it to the air pre-purification filter 2. After initial cleaning, this air is directed to the electrostatic filter 5, where small aerosol particles are removed with 95% efficiency. Then, the air is swirled around the UV-C radiator 4 on air blades 6 and moves towards the air filter with activated carbon 7. The direction of air movement is determined by the position of the air blades 6. On the elongated path of air movement in the space between the UV-C radiator C 4 and the housing 1, it is disinfected with UV-C radiation, and upon contact with the photocatalytic layer covering the surface of the air guides 6 and the inner surface of the housing 1, the air is purified photocatalytically. The disinfected and purified air is then directed to the air filter with activated carbon 7. Here it undergoes final cleaning and then, in the air ionizer 8, it is enriched with negatively charged aeroions, restoring a favorable balance of ions in the air and improving its perceived quality. Then, using a second axial fan 9, air is discharged into the room through concentrically arranged holes at the outlet 1.2. The measured air velocities before and after the activated carbon air filter 7 and the first air velocity sensor 10 and the second air velocity sensor 11, respectively, are the basis in the control module 12 for setting the speed of the first axial fan 3 and the second axial fan 9 so that the air purification and sterilization process proceeded as planned and achieved the required effectiveness. Controlling the rotational speed of axial fans 3 and 9 allows you to change the residence time of air in the zone affected by UV-C radiation, which affects the effectiveness of air purification and sterilization and the efficiency of the process. The device continuously cleans, sterilizes and improves the quality of indoor air in the room.

List of markings

- case

1.1 - air intake

1.2 - air outlet

- air pre-cleaning filter

- the first axial fan

- UV-C radiator

- electrostatic filter

- air guide

- air filter with activated carbon

- air ionizer

- second axial fan

- the first air speed sensor

- second air speed sensor

- control module

Claims (4)

1. Controlled device for purifying and sterilizing internal air, 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 covered photocatalytic layer, and above the air inlet (1.1) there are successively placed an air pre-cleaning filter (2), an axial fan (3) and an axially mounted UV-C radiator (4), characterized in that a filter is mounted above the first axial fan (3). electrostatic (5), above which air vanes (6) are attached to the inner surface of the housing (1), and above the UV-C radiator (4) there is an air filter with activated carbon (7) and an air ionizer (8). 2. The device according to claim 1, characterized in that the air guides (5) are covered with a photocatalytic layer. 3. The device according to claim 1, characterized in that there is a second axial fan (9) above the UV-C radiator (4). 4. The device according to claim 3, characterized in that in front of the air filter with activated carbon (7) inside the housing (1) there is a first air speed sensor (10), and above the air filter with activated carbon (7) inside the housing (1) there is a second air speed sensor (11), which are connected to the control module (12), and the first axial fan (3) and the second axial fan (9) are also connected to the control module (12).