GR1010135B - Three-action air-purifying device - Google Patents

Abstract

The invention relates to a triple-action air purifier characterized in that it purifies the air by using a combined technology of filters impregnated with organic biostatic materials, surfaces coated with aluminum and titanium oxides and ultraviolet light (UV-C) through lamps set inside. In its interior has positioned in series: an air inlet chamber (7) and an inlet filter arrangement consisting of a front filter impregnated with organic biostatic materials (2), an intermediate activated carbon filter (3) and a rear filter impregnated with organic biostatic materials (4), a fan (5), an air disinfection and purification chamber (6) coated with aluminium and titanium oxides, UV-C emitting lamps (9), radiation shut-off panels (11) on both sides, a fan ( 5) and an air outlet chamber (8) with an air outlet filter arrangement analogous to that of the air inlet chamber arrangement (7).

Description

TRIPLE ACTION AIR CLEANER

DESCRIPTION

TECHNOLOGICAL FIELD OF THE INVENTION

The present invention relates to an air purification device, which is characterized by the fact that it cleans the air, having a combined technology of using filters impregnated with organic biostatic materials, surfaces coated with aluminum and titanium oxides and using ultraviolet light (UV-C) through lamps that it has inside. The combined use of the above achieves immediate and effective air purification in closed spaces.

TECHNOLOGICAL BACKGROUND

To date, no similar device has been known worldwide. In particular, various air cleaning devices are known, which until recently were mainly used for specific uses such as for example in surgical rooms or intensive care areas. These air purifiers have, among other things, the following disadvantages:

They use materials inside that do not reflect to a satisfactory degree but absorb the ultraviolet light that is usually used to kill the microorganisms present in the air that enters the device. Also, due to the high density of the filters they use to clean the air, they require the use of high-powered fans to push the air through them, which dramatically increases their production cost and their cost of use. Finally, in case of replacement of the filters, a special procedure and great care is required, given that a multitude of microorganisms are trapped on their surface, which makes them particularly dangerous for health.

The above disadvantages, combined with the fact that the spread of the covid 19 pandemic, now makes it imperative to clean the air in many places that are necessarily crowded with more people, prompted us to look for a solution, the result of which is the subject of this description.

With the invented device, all the above disadvantages of the air cleaning devices known to date are eliminated. Because it cleans the air with a combined action of three factors, specifically with the use of two sets of filters soaked in organic biostatic materials, which are environmentally friendly and characterized by their great antimicrobial and antiviral action and the low cost of production and use them, by using UV-C rays and by coating the internal surfaces of the device with suitable materials, specifically with an alloy of aluminum and titanium oxides (TiO) that act as destroyers of viruses and microbes, dissolving their outer cell membrane, after of the others have reflective properties multiplying the performance of UV-C rays, as well as with antimicrobial and anti-mold materials, which contribute to the effectiveness of the filter arrangements.

. Finally, the structure of the device, combined with its construction materials and the sophisticated components it has, make it particularly safe and economical to operate and acquire, which enables it to be widely used, in various cases, such as means of transport, in places where many people are crowded (offices, businesses, etc.), which due to the spread of the covid 19 pandemic is an imperative.

. DISCLOSURE OF THE INVENTION

Our invention will become apparent to those skilled in the art with reference to the drawings accompanying this description, in which certain industrial applications of the invention are illustratively illustrated.

In particular, Figure 1 shows a perspective view of the device externally. . Figure 2 shows the inside of the device and the arrangement of its individual components. .

Figure 3 shows the arrangement of the input and output filters of the device.

Taking a selected illustrative example of the application of the invention, the main parts of the invented device are then numbered, with reference to a corresponding numbering of these parts in the attached drawings, where they are shown in an indicative descriptive illustration, without scale but simply in proportion to their sizes parts.

According to the selected indicative application of the invention, the invented device has a shell (10) which is made of aluminum or other suitable material with similar properties where it has holes (1), in order to lead the polluted air of the space in which it is placed, to its interior. The inside of the device is separated in a row, in an air inlet chamber (7), where it has an inlet filter arrangement consisting of a front filter impregnated in organic biostatic materials (2), an intermediate filter of active carbon (3) and a rear filter impregnated in organic biostatic materials (4). Then there is a fan (5) installed, and then the disinfection and air purification chamber (6), in which lamps (9) emitting UV-C radiation are installed. In order to isolate the disinfection and air purification chamber (6) and prevent radiation leakage, before and after it, the device has on both sides radiation limitation baffles (11). Next, the device has a fan (5) and an air outlet chamber (8) where an outlet filter arrangement is placed consisting of a front filter impregnated in organic biostatic materials (2), an intermediate active carbon filter (3) and a rear filter impregnated in organic biostatics materials (4). The air disinfection and purification chamber (6) has aluminum and titanium oxide coating on its walls, which have reflective properties enhancing the action of UV-C rays, while the surfaces of the inlet (7) and outlet (8) chambers they are coated with material that has an antimicrobial and anti-mold effect, such as ThermaCote Nano.

In this way, the polluted air of the room where the device is installed, enters through the holes (1) into the inlet chamber (7) where it passes through the inlet filter arrangement, first passing through the front filter impregnated with biostatic materials ( 2) which holds the dust and at the same time has a germicidal effect, then it passes through the active carbon filter (3) which holds the odors and suspended particles and then through the rear impregnated filter (4) which also has a germicidal effect (second action phase). The air is then pushed through the fan (5) into the disinfection and cleaning chamber (6), where it is exposed to UV-C radiation through the lamps (9), which in combination with the aluminum alloy and oxide coating of the chamber walls of titanium creates a high degree of photocatalysis. Finally, the air is led to the outlet chamber (8), where it passes through the outlet filter arrangement, where again retention - neutralization of any remaining microorganisms is carried out in two phases and retention of the remaining odors and suspended particles, and then exits through the holes (1) now clean in space.

In this way, with the invented device, within 5 to 10 minutes, the air of a closed space cleans effectively, economically and safely.

It should be appreciated that the present invention is not limited to the above example, which is indicative, but can be carried out in other ways which remain within the scope of the present description.

Claims (6)

1. A triple-action air cleaning device characterized by having an outer shell (10) made of aluminum or other suitable material and an interior having in-line air inlet chambers (7) with an inlet filter arrangement, consisting of a front filter impregnated in organic biostatic materials (2), intermediate filter of active carbon (3) and rear filter impregnated in organic biostatic materials (4), fan (5), disinfection and air purification chamber (6), coated with aluminum and titanium oxides , equipped with lamps (9) emitting UV-C radiation and on both sides diaphragms (11) limiting radiation, a fan (5) and an air outlet chamber (8) with an outlet filter arrangement consisting of a front filter impregnated with organic biostatic materials (2) , activated carbon intermediate filter (3) and rear filter impregnated with organic biostatic materials (4). 2. A triple-action air purifier characterized by the fact that the air inlet (7) and air outlet (8) chambers are coated with a material that has an antimicrobial and anti-mold effect, contributing to its additional purification. 3. An air purification method with the device of claims 1 and 2, characterized in that, in a first stage, the polluted air of the space where the device is installed enters through the holes (1) into the inlet chamber (7) where it passes through from the arrangement of inlet filters, i.e. the front filter (2), the intermediate filter (3) and the rear filter (4), then in the second stage the air inside the device, with the help of the fan (5) is pushed towards the disinfection and cleaning chamber (6) where it is exposed to UV-C radiation through the lamps (9), while in the third stage the air is pushed by the second fan (5) into the outlet chamber (8), where it passes through the outlet filter assembly, i.e. from the front filter (2), the intermediate filter (3) and the rear filter (4) and then through the holes 1 it exits clean into the room. 4. An air purification method according to claim 3, characterized in that, when the air passes through the inlet filter assembly, it first passes through the front filter (2) impregnated with biostatic materials which retains the dust and at the same time has germicidal action, then by the intermediate active carbon filter (3) which retains odors and suspended microparticles and then by the rear impregnated filter (4) which also has a germicidal action, 5. An air purification method according to claim 3, characterized in that the UV-C radiation to which the air is exposed during the second stage of the method in combination with the coating of the chamber walls of aluminum alloy and titanium oxides creates a high degree of photocatalysis. 6. An air cleaning method according to claim 3, characterized in that when the air is forced into the outlet chamber (8), it passes through the outlet filter assembly, first passing the front biostatic-impregnated filter (2). which holds the dust and at the same time has a germicidal effect, then by the intermediate active carbon filter (3) which holds odors and suspended microparticles, then by the rear impregnated filter (4) which also has a germicidal effect.