IT202000005905A1 - L-UVc-O3 STERILIZATION AND SANITIZATION SYSTEM WITH UV DEVICES - SOLID STATE AND OZONE FOR PUBLIC AND PRIVATE ENVIRONMENTS. - Google Patents

Description

DESCRIPTION

STERILIZATION AND SANITIZATION SYSTEM WITH STATE UV DEVICES

SOLID AND OZONE, FOR PUBLIC AND PRIVATE ENVIRONMENTS

STERILIZATION AND SANITIZATION SYSTEM

Viruses are obligate parasitic acellular microorganisms. These infectious and very small nucleoprotein particles in fact lack a cellular structure and replicate only by exploiting metabolic intermediates, enzymes and organelles of the host cell. Despite being unable to reproduce, viruses can still survive in the external environment and remain there for a limited time; the flu virus, for example, can? persist for hours outside the body, especially in cold and low humidity conditions.

In nature there are many types of viruses, which on the whole infect any type of cell and organism (animals, plants, fungi and bacteria), causing a considerable variety? diseases, such as colds, flu and polio; other species are instead devoid of pathogenic power and do not cause any disease. As for the capacity? infectious, viruses are generally strongly species and tissue specific (viral replication takes place preferentially in an organ or apparatus of specimens belonging to a certain species); only some viruses can cause diseases both in humans and in some animals, while even fewer are those capable of infecting both animals and plants.

When is the viral particle in the extracellular area? called virion; when instead it is in a phase of active endocellular replication? called virus. Virions, therefore, are found almost everywhere, in the air, in food and in the environment, while viruses are confined within the cells - animal, plant or bacterial - that host them.

Continuous low doses of ultraviolet C light can kill avian influenza viruses without damaging human tissue, according to a new study at Columbia University's Center for Radiological Research Irving Medical Center (CUIMC). The findings suggest that the use of UVC ambient light in hospitals, doctors' offices, schools, airports, airplanes and other public spaces could provide powerful control of seasonal flu outbreaks and flu pandemics.

Scientists have known for decades that broad-spectrum germicidal UV light, which has wavelengths between 200 and 400 nanometers (nm),? highly effective in killing bacteria and viruses by destroying the molecular bonds that hold their DNA together. This conventional UV light is routinely used to decontaminate surgical equipment.

Unfortunately, conventional germicidal UV light? also a danger to human health and can? lead to skin cancer and cataracts, which prevents their use in public spaces.

Scientists at the Columbia School of Public Health hypothesized that a narrow spectrum of ultraviolet light called far UVC could kill microbes without damaging healthy tissues by claiming that "UVC light with wavelengths between 207 and 222 nanometers (FAR UVC) it has a very limited range and cannot penetrate through the outer dead cell layer of human skin or the tear layer in the eye, so it is not a danger to human health. But as viruses and bacteria are much smaller than human cells, UVC FAR light can reach their DNA and kill them.

L? Ozone (O3)? an unstable gas (gaseous, at 20 ° C has a half-life of three days, in aqueous solution of 20 minutes), and in the liquid state? explosive.

Can't? therefore be preserved, and must be produced at the time of use.

Given its oxidizing power, ozone is used to whiten and disinfect, in a similar way to chlorine.

Ozone? able to carry out different activities? biological and there? explains its use in human and veterinary medicine. Ozone? a powerful oxidant, has activity? antibacterial and? able to enhance the non-specific organic defenses of the skin, moreover? able to inhibit the growth and proliferation of dermatophytes in the course of fungal dermatitis

In Italy, the Ministry of Health, with protocol no. 24482 of 31 July 1996, recognized the use of ozone in the treatment of air and water, as a natural safeguard for the sterilization of environments contaminated by bacteria, viruses, spores, molds and mites.

By saturating limited environments, ozone performs an effective antifungal and bactericidal action. Unlike conventional disinfection systems, the gas can easily reach all surfaces, even the smallest ones. recondite, for a powerful and lasting sanitization of the environment. Studies on the subject state that ozone sanitation is over 2,000 times more? powerful than any traditional sanitization, totally canceling any possibility? of infection and allergy, as well as eradicating molds, germs, mites and micro-bacterial loads that are harmful to health.

From studies carried out by the University? degli Studi di Napoli Federico II, in rooms with an average temperature of 25? and a? humidity? 80%, treated with different concentrations of ozone,? it emerged that:

- by introducing 2 mg / m <3> of ozone into the environment for 120 seconds, the reduction of the total microbial load? state of 70% in the air and 23% on surfaces;

- by introducing 4 mg / m <3> of ozone into the environment for 240 seconds, the reduction of the total microbial load? state of 70% in the air and 70% on surfaces.

From studies carried out by the University? degli Studi di Pavia, Dept. of Physiological Pharmacological Sciences in 2004, in a room of 115 cubic meters treated with ozonation for 20 minutes, the bacterial load of the air? has been reduced by 63% and that of yeasts and molds by 46.5%, while the bacterial load of the surfaces? has been reduced by 90% and that of yeasts and molds by 99%.

STERILIZATION SYSTEM

Said system? consisting of a lighting body equipped with a solid state light source (LED) and power supply and control devices for the type of light emitted and an ozone generator.

The solid state light source (LED) can? be dimmed from 0 to 30 milli-Joules (mJ) per square centimeter, there? means that the power of the emission of the light beam will be able? be calibrated ad hoc for each type of environment to be sterilized.

The ozone generator is also regulated in the emission of gas according to the volume of the environment.

The coexistence of UVC radiations and ozone gas allow the reduction of viruses, bacterial loads and molds / yeasts, therefore the complete disinfection and sanitization of the environment subjected to the treatment.

Said system comprises at least one solid state light source which can be connected, through support and connection devices, to any connection device to the external power supply present on a lighting body. Said solid-state light source, for example a non-limiting LED device, emits a

light beam with wavelengths between 200 and 400 nanometers (nm), which can?

be controlled in intensity, direction and duration of operation according to parameters established by an operator through devices external to the system itself, for example an optical switch, a device for receiving the time signal, a personal computer, a manual device for l? data entry, a device for receiving / sending data by means of a radio signal, a volumetric sensor, a device for sending / receiving data by means of an electrical signal.

In particular the following invention? relating to a system that allows the operator, by connecting said system to the input voltage present on a body

illuminating, to obtain a light beam with wavelengths between 200 and 400

nanometers (nm) of intensity? adjustable through the management of data deriving from external devices, to be able to adjust said light beam in intensity, duration of operation, color and direction.

Said system includes at least one ozone gas generator. Said generator emits ozone gas that can? be controlled in volume and duration of emission according to parameters established by an operator through devices external to the system itself, for example a switch, a device for receiving the time signal, a personal computer, a manual device for data entry, a device for receiving / sending data via radio signal, a volumetric sensor, a device for sending / receiving data via electrical signal.

Claims (6)

CLAIMS 1. System for the sanitization and sterilization of private and public environments (1) capable of emitting a modulated light beam relative to certain parameters characterized by the fact of comprising at least one mechanical fixing device (3), at least one power supply device and control (2), at least one solid-state light source, for example a non-limiting LED UVC device with wavelengths between 200 and 400 nanometers (nm), (4), at least one voltage connection device (5) variable input from 6 to 48 VDC and 100, 110, 115, 120, 125, 127, 200, 208, 220, 230, 240, 346, 380, 400, 415 VAC (Vin), an ozone gas generator (7). 2. System for the replacement of conventional lamps with solid state light source according to claim 1 characterized in that said system? adapted to receive in input driving data (D) transmitted by external data input devices (6). 3. System for replacing conventional lamps with solid state light sources according to claim 1, characterized in that said system? equipped with at least one power supply and control device (2). Said device? adapted to receive the electrical input voltage signal (Vin), the driving data (D), to transform the voltage value of the received signal and to transmit the modified signal towards at least one solid state light source and towards the gas generator ozone. (7). 4. System for replacing conventional lamps with solid state light sources according to claim 1, characterized in that said system? includes at least one solid state light source (4). Said solid state UVC LED light source with wavelengths between 200 and 400 nanometers (nm),? able to emit a light beam. 5. System for replacing conventional lamps with solid state light source according to claim 1 characterized in that said system comprises a device (5) for connection to the input voltage? suitable for receiving electrical signals (Vin) characterized by external voltages ranging from 6 to 48 VDC and of 100, 110, 115, 120, 125, 127, 200, 208, 220, 230, 240, 346, 380, 400 , 415 VAC. 6. System for replacing conventional lamps with solid state light sources according to claim 1, characterized in that said system comprises at least one mechanical fixing apparatus (3). Said apparatus? designed to support and keep electrically connected to each other the power supply and control device (2), the UVC LED solid state light source with wavelengths between 200 and 400 nanometers (nm) (4), the connection device to the external input voltage (5) and the ozone gas generator (7)