BR202021016018U2 - SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY UVC ULTRAVIOLET RADIATION AND OZONE - Google Patents

Abstract

This Utility Model Patent refers to a system that aims to ensure the elimination of viruses, fungi and bacteria, suspended particles and VOC'S (Volatile Organic Compounds) through a robust system composed of UVC radiation + Ozone + Filtering + Ventilation and Chemical agents removal system, which comprises: Base (1), Fan (2), Initial filter (3), Intermediate filter (4), Final filter (5), Lower lamps (6), Upper lamps (7 ), Side Covers (8), Buttons (9), Handle (10), Air Diffusers (11), Status Indicator (12), Tower (13). so that its basic operation consists of manually positioning the system in a certain environment with a concentration of microorganisms, later, when the equipment is already inserted in the environment, a yellow light is activated indicating that it is necessary to leave the room, then it will be ideal radiation dose for disinfection is generated, breaking DNA or RNA of the pathogens suspended in the air and on surfaces, in parallel the generation of Ozone occurs with the purpose of oxidizing the virus, after being killed, the viruses are captured by a system of ultra filtration that returns treated and fully filtered air to the environment, performing a complete job.

Description

SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY UVC ULTRAVIOLET RADIATION AND OZONE

[001] This utility model is inserted in the context of environmental control of contaminants and microorganisms harmful to human health, the guarantee of a healthy occupational and/or coexistence environment, the disinfection of surfaces and environments as a whole, through the combination of using UVC radiation for surfaces and ozone gas for environments, filtering the air entering the site and renewing it to maintain minimum standards of indoor air quality. This portable equipment aims to ensure the elimination of viruses, fungi and bacteria, suspended particles and VOC'S (Volatile Organic Compounds) through the sequential action of a system composed of: UVC lamps + Ozone + Filtering + Mechanical ventilation and Agent removal system chemicals. So that the operation maintains in its entirety, the safety of the operators involved and the effectiveness in the disinfection of surfaces and environments and the adequate treatment of the circulating air.

[002] Type C ultraviolet radiation, better known as UVC is a magnetic waveform with unique properties of its frequency. From the UV family, part C has germicidal effects, causing the DNA of a microorganism to be targeted by the wavelength of 253.7nm, causing cell death or preventing replication. From a historical point of view, the beginning of studies aimed at understanding the relationship between the effects of sunlight on human skin and microorganisms dates back to the 19th century, more precisely in the year 1814, through the work of the German physicist Joseph Von Fraunhofer (1787 – 1826) who managed to detect approximately 500 frequency bands of light, some of which were in the ultraviolet spectrum. Later, some other scientists, such as the Frenchman Jean Bernard Foucault (1819 – 1868) who made an invaluable contribution to the study of ultraviolet radiation, when carrying out experiments with carbon arc lamps, noticed a strong irritation in the eye region, which suggested presence of UV light. In 1877, English scientists Arthur Downes and Thomas Blunt published a study in which they found that through exposure to sunlight, some bacteria were inhibited, and this discovery was the birthplace of the germicidal effect, that is, the length range of wave of ultraviolet radiation that is capable of inactivating viruses and bacteria. Later studies demonstrated that the frequencies corresponding to blue and violet in the electromagnetic spectrum were more efficient in this type of application. Other studies and observations were made over the years, in which it became increasingly evident that type C ultraviolet radiation had germicidal potential/action. In particular, the creation of the mercury vapor lamp in 1901 by the American engineer Peter Cooper Hewitt (1861 – 1921), whose basic principle used a lamp within the bluish range of the spectrum, thus generating numerous benefits in industry and medicine for sterilization. With the advent of the new coronavirus pandemic, decreed by the World Health Organization (WHO) in 2020. The search for technological solutions that include people's safety and well-being was intensified, and in this scenario the applications of UVC radiation proved to be of great was of value in combating the transmission of Covid-19, mainly due to its germicidal effect. This technology gains valid format and diligent application, through equipment for disinfecting environments and environments and parallel treatment of air conditions, taking into account safety in its sequential operation and the absence of people and animals during its operational cycle due to to the adverse effects caused by the direct incidence of UVC radiation, especially in the cutaneous region. Write here the state of the art related to your invention, that is, what is already known about inventions similar to yours.

[003] According to the World Health Organization (WHO), UV light is effective for inactivating microorganisms in the UV-B and UV-C ranges between 200–310nm, with maximum effectiveness around 265nm. Its action occurs because the thymine bases in deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) are particularly reactive to this light, forming dimers (thymine-thymine double bonds) that inhibit the transcription and replication of nucleic acids, making the sterile organisms. Subsequently, mine dimers can be repaired in a process called "photoreactivity" in the presence of light, or "dark repair" in the absence of light. As a result, the strategy in UV disinfection is to deliver a sufficiently high dose to ensure that the nucleic acid is damaged beyond repair processes.

[004] Systems that use UVC radiation must be used properly to be safe. The effectiveness of disinfection is directly determined by the dose of UVC light to which a surface has been exposed. This dose depends on the power of the lamp, the distance to the object to be disinfected and the time it is exposed to UVC light. For powerful lamps and nearby surfaces, the time can be as short as a few seconds. But if the lamp used is not very powerful or if the surface is at a considerable distance, several minutes or hours of exposure may be required.

[005] In the current technological context, the disinfection of surfaces is done by equipment that performs the emission of ultraviolet UVC radiation at a certain point in the environment. However, this type of procedure is not fully effective, as the emission of UVC light in a targeted manner manages to sanitize only that point where it is being applied, thus creating a gap in terms of disinfecting the environment as a all.

[006] To solve this obstacle related to the partial disinfection of an environment/surface. The safe application of the SOLUTIONS SYSTEM FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION as a whole will allow the user to obtain a complete cleaning of the environment, through the combined action of applying UVC light and insufflated ozone gas, so that the ultra filtration system will guarantee a correct renewal of the ambient air. In this way, the environment will be sanitized in its entirety, the circulating air filtered and renewed. A triple benefit that will provide occupants with health and well-being.

[007] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY UVC AND OZONE ULTRAVIOLET RADIATION will have its action focused on carrying out the disinfection of environments with regard to air and surfaces, eliminating microorganisms such as bacteria, fungi, viruses and chemical agents, using technologies to meet the demand for sanitation, disinfection and purification of environments that may transmit some type of contamination. Under no circumstances should human beings or animals be exposed to the rays and gases emitted by the system without adequate safety.

[008] The operation of the SOLUTIONS SYSTEM FOR DISINFECTION OF ENVIRONMENTS BY UVC AND OZONE ULTRAVIOLET RADIATION is carried out in two modes, the standard mode that turns on the upper lamps together with the ventilation / filtration system and the ozone generation mode, where also the lower lamps are turned on to generate O3 gas and increase the area of UV radiation.

[009] In order for the proper disinfection of a given environment to be carried out by the SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, it is recommended to divide the layout of the area into circles of 5 meters in diameter, demarcating the centers and certifying that the surfaces to be treated are at a maximum distance of five meters from the center of the equipment.

[0010] If the area to be disinfected has more than one demarcated point, the operation cycle must be repeated at each point, in order to cover the largest possible surface area and also ensure that a greater volume of air is treated.

[0011] The standard mode is turned on by activating the green button labeled “ON /OFF UVC”, after that, there will be time for total evacuation of the area - it is recommended that the area is already vacated, being in charge of only a person performs the activation operation and then leaves the place – after that, the SOLUTIONS SYSTEM FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION will carry out a cleaning cycle starting the emission of UVC rays.

[0012] After the cleaning cycle, the system enters reoccupation standby mode. Afterwards, the operator can continue the disinfection process of the environment and/or finish it by pressing the red button labeled “ON /OFF UVC”.

[0013] The ozone generation mode of the SOLUTIONS SYSTEM FOR ENVIRONMENT DISINFECTION BY UVC AND OZONE ULTRAVIOLET RADIATION serves as a complement to the initial mode, so even after turning it on, it will only come into operation together with the standard mode, and can be activated or disabled anytime after powered up.

[0014] A “priority search” was carried out on the website of the National Institute of Intellectual Property - INPI (https://busca.inpi.gov.br/pePI/jsp/patentes/PatenteSearchBasico.jsp), also in the International System Office – PCT of the World Intellectual Property Organization - WIPO (https://www.wipo.int/pct/pt/), in addition to other patent banks on a continental and global scale, searching for the term “disinfection of surfaces, UVC and Ozone” no explicit prior art was found for the SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY UVC AND OZONE ULTRAVIOLET RADIATION, only a few devices that use similar operating principles and state of the art, which will be presented in the sequence below:

[0015] BR 20 2020 012130 3 Y1 that features a robotic and autonomous motorized device, operated by a remote control unit with a human-machine interface HMI, which allows controlling its displacement by manual remote control and its displacement in a robotic and autonomous way in the treatment environment, designed to disinfect and sterilize surfaces and air in environments and confined spaces, using UVC ultraviolet germicidal lamps, which are capable of inactivating pathogens on surfaces and suspended in the air, such as such as bacteria, viruses and fungi, thus allowing the obtaining of surfaces and treated air, whose operation is at a distance, without the presence of the operator in the treatment environment, intended to treat hospital environments, laboratories, shopping centers, industries, agribusiness, media transportation, homes and confined spaces.

[0016] BR 20 2018 012190 7 U2 refers to a device for disinfecting hospital air and surfaces, consisting of a main body and an accessory body, which uses lamps emitting ultraviolet radiation - UVC with a wavelength of 253.7 nanometers, acting in the microbiological control of air, hospital surfaces and similar.

[0017] PI 0301735-4 A2 which supports the protection of equipment by ultraviolet radiation in the disinfection of air and surfaces, aims to disinfect the air and surfaces through the germicidal action of ultraviolet light, which is a physical process, without side effects . The main function of the equipment is to disinfect the air in environments that require a high standard of asepsis.

[0018] In order to publicize and commercialize the SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION that fights the main environmental pathogens, guarantees biological safety and air quality in commercial and industrial premises, this Model of Utility was developed and its patent is being claimed in accordance with the required legal procedures.

[0019] A better understanding of the SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY UVC AND OZONE ULTRAVIOLET RADIATION can be obtained by viewing and detailing the figures attached to the order and described below:

[0020] FIGURE 1: “SYSTEM DESIGN - FRONT VIEW”, shows the front view of the system, in which it is possible to observe the location of the base and the tower of the system, without the internal components.

[0021] FIGURE 2: “SYSTEM DESIGN - ISOMETRIC VIEW”, shows the front view of the system, making it possible to view and indicate the following system components: lower and upper lamps, side covers, handles, buttons, air diffusers and the status flag.

[0022] FIGURE 3: "SYSTEM DESIGN - INTERNAL DETAILS OF THE BASE", shows in detail the internal components of the base of the system, which is composed of the ultra filtration system, comprising an initial filter of class G4 + an intermediate filter of class F9 + a final filter of class H4, as well as fan, control panel and base structure.

[0023] FIGURE 4: “SYSTEM DESIGN – EXPLODED VIEW”, presents a complementary view to the drawing in figure 03, showing details and graphic aspects of the internal components of the system base, with emphasis on the control panel, reactors, fan, final filter, intermediate filter and final filter.

[0024] FIGURE 5: “SYSTEM DESIGN – FRONT VIEW WITH GENERAL DETAIL OF THE COMPONENTS”, presents and numbers in detail all the components of the system, namely, Base (1), Fan (2), Initial filter (3), Intermediate filter (4), Final filter (5), Lower lamps (6), Upper lamps (7), Side covers (8), Buttons (9), Handle (10), Air diffusers (11), Status indicator (12), Tower (13).

[0025] The utility model patent application for the SOLUTIONS SYSTEM FOR DISINFECTION OF ENVIRONMENTS BY UVC AND OZONE ULTRAVIOLET RADIATION presents some advantages compared to conventional systems in operation on the market, these advantages being described below:

[0026] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS USING ULTRAVIOLET UVC AND OZONE RADIATION can be highly efficient in controlling the transmission of airborne diseases, such as tuberculosis and covid-19, by showing itself as a disinfection system that combines the benefits of using ultraviolet radiation in a specific range (253.7 nm) and ozone gas, it is estimated that up to 99% of pathogens in the air can be controlled with adequate application of ultraviolet light.

[0027] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS USING ULTRAVIOLET UVC AND OZONE RADIATION does not use chemical products in its process of disinfection of environments and surfaces, which guarantees a place free of pollutants and additional contamination, through its ultra filtering and renewing the air inside the enclosure.

[0028] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS USING ULTRAVIOLET UVC AND OZONE RADIATION provides an efficient environmental disinfection of a perimeter of 5m².

[0029] THE SOLUTIONS SYSTEM FOR ENVIRONMENT DISINFECTION BY UVC AND OZONE ULTRAVIOLET RADIATION has an ultra filtration system, containing three filters of different classes, thus providing a recirculation of previously treated and fully filtered air in the environment, which directly contributes to inhibit the proliferation of airborne diseases in the environment.

[0030] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION offers the precise calculation of the dose of radiation necessary for the safe disinfection of an environment, in addition to the controlled flow in the generation of ozone as an additional cleaning method, all of which is made possible by a control system at the base of the system.

[0031] THE SOLUTIONS SYSTEM FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION can be customized in different sizes and shapes, depending on the needs and peculiarities of a given environment, in order to always guarantee full technical functionality and safety of the occupants .

[0032] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS USING ULTRAVIOLET UVC AND OZONE RADIATION is an important ally, especially in hospital premises, in the fight against covid-19, as its operation guarantees the disinfection of environments and surfaces and the non-spread of pathogens existing there .

[0033] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS USING ULTRAVIOLET UVC AND OZONE RADIATION benefits society as a whole by being an important instrument for guaranteeing the quality of indoor air and preventing the proliferation of agents that are aggressive to people's health, especially in the hospital environment, indispensable place in the current moment of combating the pandemic of the new coronavirus.

[0034] THE SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION is a scientific application that provides numerous benefits of an economic nature, as it provides a significant improvement in indoor air quality in environments, inhibits the proliferation of disease-causing pathogens and therefore reduces the number of hospitalizations, in addition to having an extremely low maintenance cost, as it only requires periodic replacement of the filters, according to their saturation, and occasional repairs to the mechanical structure.

Claims (15)

SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, characterized by comprising the following components: Base (1), Fan (2), Initial filter (3), Intermediate filter (4), Final filter (5), Lamps (6), Upper lamps (7), Side covers (8), Buttons (9), Handle (10), Air diffusers (11), Status indicator (12), Tower (13) SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized by the fact that the base of the equipment (1) has four covers, one for each side, which allows access to the drive system , control panel and equipment filters for changes and preventive maintenance. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains a mechanical fan (2) in its lower base, for the purpose of moving and filtering the flow of passing air. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that the initial filter (3) is of the coarse type, class G4, in accordance with NBR 16401-3/2008, being essential for the retention of larger particles, allowing a reduction in the saturation time of the intermediate filter (4). SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that the intermediate filter (4) is of the fine type, class F9, in accordance with NBR 16401/2008, through Due to its constructive format, it allows the retention of small particles from the air, low pressure loss and a cleaner environment. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that the final filter (5) is of the fine type, class H14, in accordance with EN 1822/2011, with high tiny particle retention power, can be inserted in order to remove toxins from the environment, in order to preserve the biological safety of the environment. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET RADIATION UVC AND OZONE, according to claim 1, characterized in that it contains lower lamps (6) that emit different ranges of ultraviolet radiation type c, between 180 to 200 nm in wavelength. These strips, in addition to killing some types of microorganisms exposed to them, transform the oxygen present in the air into ozone gas for use in the disinfection of the contaminated environment. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET RADIATION UVC AND OZONE, according to claim 1, characterized in that it contains upper lamps (7), which emit ultraviolet radiation in the range of 254 nanometers in length, crucial for the elimination of microorganisms, when exposed to her for a specific time SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that the side covers (8) are fixed by hinges at the top, where access to the internal components of the system. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains pushbuttons (9), located on the top cover of the base, whose purpose is to manually turn on and off the operation of the system. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains handles (10), located on the front, back and sides of the system to facilitate movement SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains air diffusers (11), fixedly positioned in the system tower to ensure better air movement and good dispersion of ozone gas in the environment. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains a status flag (12), located at the top, is essential to ensure the safety of the operator ) when signaling the current status of the system. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to claim 1, characterized in that it contains a tower (13), characterized in that it is an air duct located in the upper part of the system, where the lamps, diffusers are installed of air and the status indication signaling. SYSTEM OF SOLUTIONS FOR DISINFECTION OF ENVIRONMENTS BY ULTRAVIOLET UVC AND OZONE RADIATION, according to any one of claims 1 to 14, characterized by the fact that the system is totally portable and operates at a voltage of 220 V, with a power of 750 Watts.

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