• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Smart glasses that generate airflows against viruses in aerosols. Electronic anti-aerosol protection glasses, which generate multiple continuous air flows, moving air currents in all directions surrounding the upper area of the user, which prevents the approach and contact with viruses, microorganisms and harmful elements, protecting from contact and the spread of viruses to the head, eyes, respiratory tract, skin, hair, back, neck, shoulders and chest, including the user's clothing, even when protective masks or when it is not possible to maintain a safe distance between people and living beings. Device that self-disinfects filters and air using ultraviolet germicidal light. Device that works with photovoltaic energy or with rechargeable batteries and that controls and communicates with other electronic devices wirelessly. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2834120A1
    申请号:ES202130057
    申请日:2021-01-26
    公开日:2021-06-16
    发明作者:Villanueva Margarita Gutierrez
    申请人:Villanueva Margarita Gutierrez;
    IPC主号:
    专利说明:

    [0002] INTELLIGENT GLASSES GENERATING AIR FLOWS AGAINST VIRUSES IN AEROSOLS
    [0003] TECHNICAL SECTOR
    [0004] The present invention is comprised within personal protection devices, more specifically, goggles against infection by viruses in aerosols.
    [0006] BACKGROUND OF THE INVENTION
    [0007] The health authorities recommend protecting the respiratory tract and the eyes, when there are risks of contagion by aerosols, it is also recommended to protect the eyes and respiratory tract against harmful elements or pollutants toxic or harmful to health, even in some cases it is recommended protection of the skin and hair, through the use of domes, face shields and protective caps. Air pollution is the introduction of viruses, particles, biological molecules and other harmful substances into the atmosphere, causing diseases and infections, as well as being this pollution that causes death to humans. The air quality in indoor places such as hospitals, or crowded places can be bad and the atmosphere can be loaded with viruses in the form of aerosols, likewise pollution and urban air quality in most cases is usually bad for people's health.
    [0008] These harmful elements penetrate the human body through the respiratory system, the ocular organs and even through the surface of the skin or hair, developing or spreading a multitude of diseases or health problems, such as respiratory disease of the Covid19, which has become a serious global pandemic due to the transmission of the SarsCov2 virus, a virus that can be spread through aerosols. Following the safety recommendations, protective elements such as masks, face shields, hermetic goggles and caps are usually used, among other types of face protections that are more used in laboratories and by professional personnel, such as domes, helmets and diving suits. . All these protections are aimed at preventing elements or particles harmful to health from coming into contact with the eyes, the respiratory tract, the skin and the hair of the user.
    [0009] The use of masks in the case of pandemics is usually mandatory or recommended, both in outdoor places and especially in closed places or places, where there is a greater possibility of contagion due to lack of ventilation, as well as health professionals in addition to using masks , they should wear hermetic protective glasses or face shields to protect the eye area since it is an important route of infection, they should also cover their hair and wear a non-permeable protective suit, having to be as covered as possible against contact with virus. An individual infected by a virus, can infect other people, through the expulsions of nasal or oral secretion, either in the form of drops of fluids of different sizes, or in the form of aerosols, these secretions can be produced in various ways, when the infected person sneezes, coughs, or simply by speaking or breathing, among others.
    [0010] That is why the health authorities among the most important recommendations to avoid contagion and avoid the spread of viruses, recommend that there be a safety distance between people of several meters, to try to prevent a person infected by a certain virus from reaching with its secretions directly to a healthy person and thus avoid the spread and viral infection between people. This safety distance between people is very difficult to maintain, mainly in indoor areas or closed places where space is limited or reduced, such as in offices, industrial warehouses, indoor work areas, transport, schools, universities, etc. hotels, restaurants, bars, nightclubs, theaters, gyms, shops, supermarkets and practically anywhere indoors. In turn, the safety distance between individuals is also difficult to maintain in open places that are attended by many people, and also the social customs established in most cultures and countries, make the safety distance not maintained, in social gatherings or family gatherings. This lack of rigor in the fulfillment of maintaining the distance between people or the difficulty of being able to carry it out, is a high risk factor that finally usually ends with a notable increase in the spread of a virus.
    [0011] The safety distance between people in some cases is impossible to maintain, as in the case of healthcare professionals, in these cases the professionals not only cannot maintain the safety distance, but on the contrary they must be close or in direct contact with the infected patient, so the use of hermetic masks and glasses, in the only thing that protects them against a possible contagion or contact with viruses. Protective masks should be as effective as possible and should be self-filtering and as watertight or hermetic as possible, but in most cases, both among professionals and the general population, the so-called “Surgical” masks are often used. "Or" FPP ", none of these masks are totally tight in their contour, so if a patient, for example, sneezes or coughs directly on top of the healthcare professional, the mask could not avoid stopping the entire viral load, not being able to prevent viruses from being able to enter the gaps around the mask or goggles and thus be able to reach the respiratory or ocular tracts, causing contagion. Therefore, the typical masks mostly used by the population, serve to reduce or decrease the expulsion of oral or nasal secretions of infected individuals, but they cannot stop the entire secretion, they also fail to avoid the approach or the physical impact of the viruses against a third person, against the surface of skin, hair or even against the physical surface of masks, glasses or face shields, these elements or surfaces being contaminated after contact with viruses, therefore not being able to fully protect a healthy user of possible infections, therefore, health authorities place special emphasis on the population maintaining a safety distance of several meters between people, thus trying to prevent viruses from reaching and impacting healthy people.
    [0012] The problem of the spread of viruses, as in the case of Covid19, is even more serious, since according to the latest scientific studies the SarsCov2 virus, responsible for Covid19, can be transmitted through the air, in fact as indicated in different studies, this may be the main means of contagion, the transmission by aerosols.
    [0013] This peculiarity of this virus changes the established rules, since the latest scientific studies have shown that the virus is not only transmitted by droplets of greater or lesser size that an infected person can release or release through oral or nasal secretions, but also It is more than likely that most people are infected by inhaling the virus that circulates in tiny particles that are suspended in the air in the form of aerosols.
    [0014] These particles suspended in the air can be inhaled by other people, and the most worrying thing is that they can remain suspended in the environment for hours and travel distances beyond the two meters established as distance. security between people. Especially and especially in indoor places that do not have good ventilation, the risk of viruses in suspension floating in the air in the form of aerosols, increases the risk of contagion.
    [0015] The World Health Organization (WHO) has recognized the existence of this airway of contagion by aerosols, in turn groups of scientists from different countries have carried out studies in which the spread of viruses is indicated as the main route of infection by aerosols. In this case, the safety distance of two meters would not be enough, since as has been explained the distance that a virus can travel is greater, reaching, according to scientific studies, even more than eight meters away, or remaining for hours in suspension in the environment. As with environmental pollution in the atmosphere, due to emitted chemical substances, dust, harmful gases, smoke, as well as other health problems, generated by mites, bacteria, pollen, etc.
    [0016] Inhalation by a healthy individual of microscopic contagious particles in the form of aerosols, which remain suspended in the air for hours, after that can be the main route of infection. Likewise, the time that these contagious microscopic particles remain in suspension floating in the air, with the risk of accumulating and infecting someone, depends mainly on the ventilation factor. In this sense, specialists recommend avoiding activities in closed places, and the need to direct all possible activities outside, since it has been observed that contagion is less likely in adequately ventilated places without allowing viruses to accumulate. in the environments. In fact, there are electronic devices that measure air quality, warning when a certain space or place is too dirty or stale air, these measurement systems are useful to know the danger of a specific space or place.
    [0017] In the case of virus transmission by aerosols, the protections normally used by the population such as surgical masks and other models of masks and the maintenance of a safety distance of two meters, are not enough to protect against airborne viruses, or that are in suspension, in fact due to the increase in cases of infections, the authorities carry out population confinements, to prevent the spread of viruses between people or even between animals and people and vice versa.
    [0018] In the same way in another sense of protection as we have explained, in the air you can find allergic elements such as pollen particles or Mites can also be found in the air, especially in hospitals or closed places, different types of microorganisms, germs or bacteria, and likewise, the air can contain polluting elements such as fumes, liquids or gases, which can penetrate most masks. or glasses more commonly used through gaps, wrinkles, lack of fit or through penetration of the fabric or material with which they are made.
    [0019] In the event that the protection elements come into contact with viruses either by direct reach through sneezing or coughing from an infected person, or by contact through aerosols directly on the surface of a mask, screen or glasses. , will make it necessary to clean the protective piece or, in the case of the masks, for them to be replaced with a new one, since through contact with a virus, said protective pieces are contaminated, because viruses can stay active for hours on most surfaces. These protection elements act as physical barriers to stop viruses when there is contact, but are dirty or contaminated when there has been physical contact with the viruses themselves. Another problem that society faces in the face of the spread of diseases transmitted by air or aerosols, is the discomfort suffered by the users of the masks, people who are forced to wear masks for long periods of time, tend to suffer discomfort when breathing, since many times an overexertion must be made in the inspiration, which makes many users remove or lower the mask for a moment to be able to inspire more easily, this makes that during that period of time in which the mask is lowered or removed from the nose or mouth area, the individual is unprotected against possible contagion, in fact it is common to see people with their nose outside the mask to avoid feeling overwhelmed. This feeling of overwhelm is especially produced by the user's exhalation itself, the air that is exhaled carries with it carbon dioxide, in addition to generating steam and heat, which makes the inside of the mask maintain a higher temperature and the feeling of lack of air is greater. This vapor that is generated by the use of the mask that is condensed inside, makes a user's glasses foggy with the vapor of the exhaled air, this condensed air escapes through the fabric, or through the upper part of the the mask and goes up to the glasses producing fogging, the user having to manipulate the glasses to clean them or lower the mask to favor the air inlet.
    [0020] These problems of feeling overwhelmed, shortness of breath, heat and fogging of the eye protection, are undoubtedly problems for the general population, but they are even more so for health professionals who must remain throughout the working day with the elements of protection placed in closed places such as hospitals, precisely health professionals use hermetic protective glasses, in this way they ensure that the glasses do not fog and that viruses cannot enter or contact the eyes through the holes or sides of the glasses, but they cannot prevent the surface of the glasses from being contaminated by contact with viruses.
    [0021] As explained, respiratory protection masks can cause problems of difficulty in breathing in people with respiratory problems, such as asthmatics or other respiratory problems, in severe cases of this type of disease, medical professionals can reach to advise against the use of masks for these people, leaving these people unprotected against airborne infections or being able to easily infect others in the case of being infected.
    [0022] Another problem of fundamental importance when it comes to controlling the spread of viruses is that which occurs when drinking or eating. As is known, the health authorities have substantially reduced capacity or even closed catering establishments such as canteens, bars or restaurants. In these places the risk is greater, since in order to drink or eat, an individual must remove the mask, being at those times exposed to possible contagion or exposing third parties to be infected on their part, in the case that it is positive to a contagious airborne disease such as Covid19. It is even more risky in the case of eating inside bars or restaurants, since this risk is increased by lack of ventilation or drafts, which can lead to viruses being suspended in the air for hours and the diners not being protected in any way since they cannot wear the mask while they perform the act of eating or drinking, makes this situation dangerous due to the transmission of viruses in the form of aerosols.
    [0023] Therefore, it is necessary to develop a device that increases security against the spread of diseases by airborne transmission, such as the transmission of viruses in the form of aerosols, a device that is portable and of comfortable use that purifies the air close to the user. A device with rechargeable batteries by conventional charging in the electrical network, or by means of photovoltaic or solar energy, that can work directly using photovoltaic or solar energy. A device that prevents direct contact of viruses against the facial area and even against the side and back of the user's head and that can prevent direct contact of viruses with the surfaces of the protections, such as masks. or glasses, which acts in this sense as a protective barrier, which prevents surfaces from being contaminated by contact and prevents contagion from occurring by avoiding contact with viruses and other toxic or harmful elements with the eyes, nose, mouth, the user's skin and hair.
    [0024] That it can protect people even when they are not wearing protective masks, such as when these people are eating, drinking or doing sports.
    [0025] An advanced device, which protects people even if a safe distance cannot be maintained, for example, in medical consultations and hospitals, in public transport, on flights or trains, in work activities such as meetings or family gatherings, in schools and universities, in sporting events, among many other activities.
    [0026] A device that increases ventilation and protection both outdoors and indoors, that protects the facial and eye area and the area around the user's head and that protects the upper body area, shoulders, chest, back and clothing. dressing from the approach of viruses, through the continuous generation of currents of treated and / or filtered air, which form an invisible physical barrier, which prevent the approach of harmful external elements to the user, even when the respiratory protection mask cannot be used.
    [0027] A device, which eliminates the sensation of lack of air, that helps eliminate the heat and steam produced by. And in the same way as the device, it can protect users from other elements that are in the air that are harmful to health, such as pollen, dust, mites, bacteria, germs, smoke, gases and other elements that are transported. by air or by aerosols.
    [0028] As well as the device itself that generates filtered air currents, carry out self-cleaning of the air and / or disinfect the air filters, by means of portable germicidal ultraviolet light generators.
    [0029] A device that is intelligent, that can transmit and receive information and wireless commands through other electronic devices, that can analyze the quality of the air and communicate it to the user, who warn of the duration of the battery and the replacement of the air filters among other warnings, such as the recommendation of the use of ultraviolet germicidal light in dangerous environments. In short, it is necessary to create a protection device for the upper body, the ocular, facial and surrounding areas of the user's head, which, in a portable way, can exponentially increase safety against aerosol infections among other harmful elements transported by air. That it complements the safety elements such as respiratory protection masks and that it can protect people from approaching and contact with viruses even when they are wearing protective masks or not, even when the safety distance from contagions cannot be maintained. .
    [0030] A device that generates by itself aeration, ventilation, purification and drafts in the form of personal protection. A device that can protect users even during lunch or dinner, where the mask cannot be placed and where it is difficult to maintain a safe distance from other diners, especially that is effective in interior places where there is a increased risk of contagion. Likewise, it allows health professionals to increase protection against the approach of particles or viruses, avoid that viruses come into contact with the PPE protection elements such as masks, hats or upper part of the suit, and even avoid the approach of virus to the skin and hair, a device that alleviates the sensation of shortness of breath and reduces the temperature that is generated with the use of masks and PPE equipment, in long periods of workday, as for example in the case of professionals sanitary.
    [0031] In the same way, it must be a device that protects athletes, who cannot use a mask during physical activity, due to the lack of oxygen or the respiratory overexertion they have to perform, which leads to less physical performance. , which may be of special relevance among elite or professional athletes.
    [0032] A device that increases ventilation in closed places and prevents the stagnation of airborne viruses.
    [0034] EXPLANATION OF THE INVENTION
    [0035] The main advantages provided by the present invention make it a portable protection device against the contagion and contact of viruses by aerosols, against polluting elements and also against other harmful elements or allergens that are found or move in the air, which offers greater safety to the user in addition to the basic elements of protection such as respiratory protection masks and even that this device has the ability to protect, even without the use of masks.
    [0036] The invention deals with an advanced device of easy use and portability, glasses that protect against aerosols and that purify the air from the atmosphere near the user, which has one or more electronic devices that generate ventilation or blowing, achieving eye protection , facial and even that protects around the entire head of the user and in all directions of the upper body. The device of the present invention can integrate one or more air filters, such as activated carbon filters or other filtering materials, although preferably and not limiting the anti-aerosol protective glasses of the present invention, it has filters called HEPA ( from the English "High Efficiency Particle Arresting", or "high efficiency particle collector"), or filters called ULPA ("Ultra Low Penetration Air"), both filters base their efficiency on the use of braided fibers responsible for screening the particles and letting only air pass, focus on the ability to filter particles of one size or another by each one.
    [0037] 99 percent of the particles that we breathe during an exhalation measure 10 pm or less, being able to be retained in the lungs and cause negative effects for the organism as we have explained. Each of the two filters have the following minimum designation and therefore the key to their differences: HEPA (H13): 99.99% efficient for filtration of particles 0.3 microns in diameter or larger. ULPA (U15): 99.9995% efficiency for filtration of MMPS particles (0.1 - 0.25 microns). Both filters have the ability to stop most harmful particles, including viruses such as SARS Cov2 among others, as well as other irritating allergens or harmful harmful elements that are in the air, generating the device drafts of filtered air and / or treated, clean and purified, creating a protective barrier around the head and face of the user and the upper body, back, shoulders and chest, avoiding the approach and contact of particles, harmful elements or virus to the wearer of the device, thus protecting both the eye area and the respiratory tract and in turn preventing, for example, viruses, from coming into contact with the surface of the skin, with the user's hair and even with the surfaces of the mask, the protective cap, the upper area of the suit or even the physical surface of the goggles themselves. An advanced and portable device, which may have the ability to self-clean and disinfect the air that is introduced into the device and disinfect the air filters, which may have one or more electronic systems of portable ultraviolet light generators of disinfection with germicidal, bactericidal and virucidal effect, with which the useful life of air filters would be exponentially lengthened and safety would be increased by purifying the air that is introduced into the goggles and expelled into the atmosphere near the user.
    [0038] The device of the invention is characterized by integrating one or more internal blower fans in the device itself or in the external area, which generate a continuous stream of clean and disinfected air, using the outside air, treating it with ultraviolet light and / or filtering this, and later throwing or blowing it in all or any direction and not allowing the approach and impact of viruses and any other element that is in the air against the user. These blower fans generate a continuous stream of air, which directs the air stream from the eye area, side and back of the head in all directions to the upper part of the user's body and clothing, said continuous stream of air clean, purified and treated, it acts as an invisible barrier, to prevent the approach of microorganisms, viruses or harmful elements and particles to the user of the device, causing them to be pushed out of reach of the entire ocular and facial area. out of the respiratory tract, out of the skin of the face and neck, the wearer's hair and the very surfaces of the goggles or respiratory protection mask.
    [0039] Taking advantage of the microscopic size of microorganisms, harmful elements in the air or, as in the case of viruses, any particle exhaled by an infected person or any microorganism or virus that is floating in the form of an aerosol, will be expelled by the current. of air generated by it or the device fans, an effective way to maintain a clean, ventilated atmosphere free of particles and viruses, surrounding the user, thanks to the continuous generation of air currents in all directions, these air currents do not They only act as a physical barrier stopping and expelling the viruses by contact with the generated air stream, but also the stream of filtered air continuously generated by the fans or blowers, prevent the contact of the viruses from occurring, eliminating the risks of contact, contagions and preventing surfaces are contaminated, since the generated air current expels viruses before contact occurs, preventing viruses or particles from passing through the air current.
    [0040] The electronic protective glasses that generate purified air can be easily and comfortably carried by the user, preferably and not limited to the form of glasses or a frame or frame for glasses, so that it is positioned in the ocular area and surrounding the entire head. , and in this way direct the air up and down or in any other direction, protecting the entire facial, ocular and surrounding area of the head including the skin and hair and the entire upper body of the wearer of the device. Likewise, the housing of the device contains fixing parts, which prevent sliding or unwanted movement once placed, said fixing parts can be the frame of the glasses itself, they can be glasses temples, straps, tubes. , adjustment tapes or rubbers, with or without adjustment of measures, elastic or fixed, clips or magnets to hold the structure of the device, for example to other glasses such as prescription glasses. Device that can be used together with other prescription glasses, superimposing the glasses of the present invention to the generic glasses, one superimposed on the other. Air-generating protective glasses, which may or may not have crystals, crystals or transparent materials such as plastics, among others, which may be sun protection, graduated or both. Likewise, the lenses can be made of advanced materials such as virtual glasses or that act as a digital screen. Portable device characterized by integrating, at least one electronic ventilation or blowing system, which introduces or sucks the air from the outside and once this air has passed through the ultraviolet disinfection system and / or through the air filters, it subsequently directs that clean and purified air either by blowing directly through it or the mobile external fans, or through it or the internal fans, which subsequently send it to the different mobile mobile air outlet nozzles available, generating several air currents clean, creating a continuous safety barrier.
    [0041] The air-generating protective glasses have at least one fan or blower to introduce air from the outside, inside the housing of the glasses themselves and expel it to the outside, directing the clean air blown to the desired area or areas, the device that acts as a blower, generates a continuous air inlet that is filtered and / or treated with germicidal light, and also a continuous outlet of purified air to the desired area. These ventilation and blowing systems are preferably small in size, they are silent devices, to avoid noise in operating mode.
    [0042] The invention is characterized by being able to integrate portable electronic systems that generate ultraviolet light, through, for example, the use of UVA lamps or preferably by their tiny size, diodes with ultraviolet (LED ) technology and / or with laser diode ( DL) technology. ) which is a semiconductor device similar to an LED but that under the right conditions emits laser light. Germicidal ultraviolet light, led or laser, based on low-frequency, emitted and directed ultraviolet technology, which allows the destruction of viruses, among other pathogens, by using generators with the required nanometers for germicidal action and minimal energy consumption, and is they are preferably positioned inside the body of the device, once in place or in place, by pressure, thread, or by any type of fixation. These ultraviolet light generators are integrated inside the device preferably in the same place where the air inlet area is located and / or where the filters are integrated, in a watertight area that does not allow UVC light to exit towards the user, in this way they overlap, remaining one on top of the other, being able to carry out self-disinfection of the physical surface of the air filters, increasing and lengthening their useful life.
    [0043] These ultraviolet lights, called germicides, are effective in the rapid disinfection and elimination of microorganisms such as viruses, germs and bacteria among others, by exposing ultraviolet light to surfaces, liquids and air. The ultraviolet light generators can also be integrated into the device in the area intended for disinfection of the air that is introduced inside, although the disinfection carried out by this germicidal light is considered fast when it comes to ending the activity of the viruses, germs and bacteria in the air, it is possible that the device of the invention needs to retain or force the air that enters through a guide path to have one or more guide tubes, which can have any structure or shape as long as a air passage, for example with a linear or spiral channel, that acts as a circulatory channel for the air that enters and forces this air to circulate inside this area and thus increases the time to which the air is subjected to germicidal light radiation, making the ultraviolet light treatment in the air greater and therefore more effective in disinfection and deactivation of viruses and microorganisms.
    [0044] Far UVC light is safer for humans than UVA light as UVC light has a very limited range of nanometers and according to the latest studies this UVC light cannot penetrate through the outer layer of dead cells of human skin or tear layer in the eye area, so it is not a danger to human health. However, viruses, being much smaller than human cells themselves, can be inactivated by distant UVC light by reaching their genetic material, attacking the molecular bonds that hold DNA together.
    [0045] Said ultraviolet light generator system is arranged and designed in such a way that it cannot direct the light towards the skin or eyes of the user of the device, avoiding the exposure to the user of light, by means of an opaque protection piece in its contour or watertight chamber. , which only allows the emission of light to the internal part of the system, such as the channel in a linear, spiral or labyrinth form, through which the air enters and all the way through the interior of the housing and / or directly The germicidal light is directed to the air filters, having a reduced light beam power and limited to the necessary distance where it must act, eliminating the risk of contact with the user's skin or eyes.
    [0046] The electronic devices that make up the device are small for integration and weight reduction, all of them have on and off buttons and / or different power selections, so that the user can activate or deactivate them when necessary or whenever you want, all of them powered by built-in rechargeable batteries, which allow their use without the need to be connected to any power grid during use and you can use, for example and without limitation, a rechargeable mini USB line to recharge through the power grid or by exchanging energy With another electronic device, as well as another possibility of energy source, the device can have photovoltaic solar panels, and therefore is autonomous and does not need electric light for its operation or for charging the batteries, this technology offers access to the energy regardless of existing electrical grids. The device of the invention works where it is necessary, both in urban environments and in rural areas where it is difficult to have access to electrical energy as well as in catastrophic areas where there is no electrical network available, an immediate and efficient solution that allows the user to be protected against to viruses and particles in aerosols, anywhere. The device of the invention can serve as an auxiliary charger to charge other electronic devices, for example a mobile phone without a battery in a remote place without electricity, by means of solar energy exchange. through the usb or mini usb port of the device of the invention, therefore having access to energy where it is necessary and independently of the electrical networks and using the sun as a source of clean and renewable energy. In the case of the use of photovoltaic or solar panels that the device can count on, regardless of whether they include conventional recharging batteries in the electrical network, it would allow the operation of the device and / or the batteries to be recharged autonomously by means of the action of radiation with solar energy outdoors and with artificial light radiation indoors, increasing the capacity of use and for example leaving the conventional battery as a reserve, or allowing use in places that do not have electricity, such as remote places or that have suffered catastrophes and have lost the electricity grid, as well as in remote places such as beaches, mountains, work in the fields or farms with animals that can also carry viruses and infect human beings.
    [0047] The incorporation of photovoltaic or solar panels makes the device more ecological, also by being able to incorporate electronic ultraviolet disinfection systems to disinfect the air filters, the duration of the filters is considerably increased, reducing the generation of filter waste to the environment. and using preferably recyclable and recycled materials for the manufacture of the housing, being an environmentally friendly device.
    [0048] Anti-aerosol protective goggles, removable in its entirety, to facilitate individual cleaning. Made of materials that allow washing with disinfection products, waterproof and submersible, resistant to high temperatures for disinfection by heat and equally resistant to other disinfection treatments or exposure to ultraviolet rays among others.
    [0049] Electronic glasses that generate air flows that can increase safety by integrating different protection elements compatible with the device. Through the integration of elements of facial and respiratory protection, elements that are easily fixed to the device of the invention, by superposition, thanks to the components of connections for tubes that the device can have, which act as male or couplers, entered in the through holes of the compatible protection elements. Electronic glasses of the invention that continuously introduce renewed, purified and disinfected air into the internal space of the protection elements to facilitate breathing, relieve the heat of the exhalation vapor and prevent fogging if they are transparent, in the same way purified and disinfected air is continuously blown through the upper area of the electronic glasses of the invention, to block and remove particles and viruses that are transported in aerosols, preventing these from contacting the surfaces of compatible protective elements and contaminate them.
    [0050] Elements preferably that are transparent so that the user can be seen by third parties, communicate better, that they can read their lips when speaking and also be recognized by electronic facial recognition devices.
    [0051] Smart electronic glasses that generate protective airflows, which have a component that can be lengthened or shortened and that allows the size of the diameter of the glasses to be adjusted to adapt to any circumference of the user's head, whether adult or smaller.
    [0052] The device of the present invention can be managed and control all its functions without having to take it off, either manually by means of operating buttons, or by hands-free, with a wireless connection through an electronic module called "Bluetooth" or similar as Wifi and any other system that uses RF signal technology that communicates between the electronic module of the device and other modules of smart devices, module preferably incorporated inside the housing of the device of the invention, which allows the operation, operation and connection of the device from and with other electronic devices, for example from a mobile phone or a smart watch.
    [0053] In another aspect, the device uses technology for communication, with data processing, which generates, sends and receives the necessary information to control, maintain and adjust the functions according to the environmental conditions, likewise the device can warn by itself or by sending the information to another device, of lack of battery, change of filters or air quality in real time, to act on it. Protective goggles that generate air currents that can incorporate acoustic and / or light alarms, which warn for example of a lack of battery, filter change, operation and / or shutdown.
    [0054] Device that can integrate sensors that include, but are not limited to the so-called (Electro Mechanical Systems) that are sensors capable of detecting air pollution by particles and air pollution for example by metal oxide, carbon dioxide, benzene and some others volatile organic compounds, air pollution sensors are configured to detect different types of air pollutants.
    [0055] The sensors of the device are applicable to the different usable applications detailed above. These sensors are configured to detect air quality in real time, therefore the sensors provide information to users, for example when filters need to be replaced as they contain too many trapped particles.
    [0056] The sensors and indicators communicate via wireless, as particular and non-limiting examples of said communication system connected through a network called wireless LAN, thanks to the motherboard circuit with Softward that the device has, communicating through Bluetooth systems, Wifi and any other protocol that uses RF signal technology, the device of the invention being able to communicate with other smart devices. Smart protective goggles that generate air, with a software system preferably installed inside that allows users and the device to perform a variety of functions. Some non-limiting examples of the functions of the smart protective glasses of the invention are: Notify when the filters must be replaced by date and / or by hours of use. Notify battery recharge and duration of the same. Report the air quality in the user's environment. Activate or advise that the ultraviolet germicidal light generators be activated, to disinfect the air filters and / or to disinfect the air that enters the device in the event that it is dirty, stale or contaminated.
    [0057] The possibilities of use offered by the sensors of the present invention regarding pollution, could process the collected data, as information and provide it to the user and / or share them with other users so that they can have information on environmental pollution with precision and real-time positioning, including sharing collected information on contamination with the authorities responsible for it and improving public health contamination information.
    [0058] The technical characteristics of this advanced anti-aerosol device form a technical effect that interacts by generating a filtered ventilation stream for hours, against the particles that approach the user. By making these smart protective glasses that generate air currents, an eye protection and respiratory protection device, by means of the continuous generation of filtered air stream and / or treated with germicidal light, to avoid contagion by aerosols and the approach of harmful particles or elements.
    [0059] The World Health Organization has established a minimum safety distance between people of two meters to prevent viruses from coming into contact between individuals, this device anti-aerosol glasses prevents viruses from coming into contact with the respiratory tract , facial area, eye area, against the surface of the skin and hair of the user of the device even if it is not possible to maintain the safety distance.
    [0060] Likewise, the health authorities have advised that closed places should be as ventilated as possible with drafts, so that viruses do not remain in suspension, so this device also ventilates closed spaces individually and by itself. and it avoids the formation of stagnant air where viruses can remain in suspension, being highly recommended in closed spaces or with little ventilation. As an example, if inside a hospital, all workers wore anti-aerosol goggles on and activated, the ventilation generated by each of them, multiplied by the number of users, would be enough to ventilate a room and avoid stagnation of viruses in the environment during activity. Users would be adequately protected with continuous ventilation, generating filtered air currents that act as an air barrier during the ignition mode, when ventilation is necessary, not allowing the virus to get into the eye, facial, or skin areas. user's head, especially in public spaces, or such as airplanes, trains, subways or public transport in general, in restaurants, bars, work and family gatherings, as well as in many other places, where the safety distance is difficult to maintain, minimizing the risk of exposure, increasing and generating air currents and ventilation.
    [0061] Likewise, smart protective glasses that generate anti-aerosol air currents could protect athletes who, due to their physical activity and respiratory overstrain needs, cannot perform the activity with protective masks, which would generate a lack of oxygen. , feeling of fatigue and force an overexertion of breathing by the athlete, their physical performance and even their health may be affected. The anti-aerosol current generating glasses device would allow the athlete to be protected in a comfortable way, without the need to wear a mask and avoiding the approach of viruses to the frontal area and surrounding the face, in addition to cooling and alleviating the sensation of heat. In the same way, these glasses or anti-aerosol glasses frames would allow to protect and avoid contagion even when, for example, in a restaurant indoors, eating without a mask, preventing viruses from reaching diners effectively and comfortably. Likewise, the present invention does not only serve to protect against contagions and contamination, as explained above, the device can also be very useful to increase safety in jobs in which people are affected by fumes or dust. For example, it would be a device that would greatly help firefighters who lose vision due to smoke, these smart glasses that generate air currents, would ventilate the eye area allowing a better vision by removing the smoke. In the same way, in jobs that generate a lot of dust such as in mining, in the timber industry, earthworks, masonry, among many other activities, the dust generated can affect respiration and also the vision of the worker, the smart glasses of the invention would protect both breathing and vision, continuously keeping the dust generated out of the worker's breathing and vision zone.
    [0063] BRIEF DESCRIPTION OF THE DRAWINGS
    [0064] A series of drawings that help to better understand the present invention and that expressly relate to an embodiment of said invention that is presented as a non-limiting example of this, will now be described very briefly:
    [0065] Figure 1 shows an example of the device of the invention, placed and carried by the user and seen from the front, housing or main body of the device 1 in the form of glasses, attached to the sides or surrounding the user's head. Component 2 is observed, button for controlling the functions of the device's ventilation, suction and blowing component. Component 3, button to control the functions of the ultraviolet germicidal light generator component. Both buttons 2 and 3 function as operational warning indicators, indicators with built-in light, so that people can observe that the device is in operation or off and thus, take the appropriate safety or distance measures. In the upper and lower area of the device and in its entire contour, there are multiple air outlets, 4 mobile nozzles, which allow directing, controlling, fixing and pointing the air in any direction, independently of each one of them, creating a mesh or barrier of purified and disinfected air currents, interlaced air flows, surrounding the entire head of the user and the upper body, shoulders, chest and back. And arranged in the enclosure of the device surrounding to be able to directly receive the radiation of light, are the photovoltaic plates 5, which allow the operation of the device and / or charge the batteries with photovoltaic energy by artificial light or sunlight.
    [0066] Figure 2 shows a profile view of the device of the invention 1, placed and carried by the user, it shows the operation control button 2, for controlling the functions of the electronic component of ventilation and air suction 6a, that is located on the side of the device and that introduces air from the outside to the inside of the device, continuously while it is in operation, air that later comes out as an injection flow, through the multiple mobile air outlet nozzles 4. Electronic component that can work directly with photovoltaic energy supplied by the photovoltaic panels 5 or by the battery 23 located in space 8, a battery that can be recharged by both photovoltaic energy and conventional electrical energy through the preferably USB charging port or mini USB 7.
    [0067] Figure 3 shows an example of the device of the invention 1, placed and carried by the user and seen in profile, in which the button 2 controls the operation of the electronic component for ventilation and air suction 6a located in the back of the device. Component 6a that is located in the positioning component or coupler 9 of the device housing, which in turn houses, superimposedly, the components 10 high-efficiency air particle filter, a filter that is positioned directly next to the component 11 generator of UVC laser led ultraviolet light that disinfect the surface of filters and air quality sensors 12 that analyze the air, all components that are finally superimposed by component 13, protective filter mesh or net for larger particles that are in the air.
    [0068] Figure 4 shows a profile view in which the user is making use of the device, the device 1 is in operation with the light indicator buttons on and 2 activated, therefore the suction fan 6a, is continuously introducing air from the outside to the inside of the device housing, the air is pushed out in the form of a flow injected by the mobile nozzles 4, which can each move independently, to direct, control and point the air correctly in any direction, in this representation with a downward direction, in which the user only has activated the lower area of the air outlets of the electronic glasses. In a Representation by lines with arrows, it can be seen that the directions of the air flows form a network crossing each other surrounding the facial, ocular, lateral and rear areas of the user's head, totally protecting the user from contact with viruses in aerosols. , clean air currents that push, block and prevent microscopic viruses from crossing the air barrier.
    [0069] Figure 5 shows a profile view in which the user is using the device, the device is in operation so the suction fan is introducing air, the air is pushed out in a continuous flow injected by the nozzles. upper and lower mobiles 4, each of which can be moved independently, to direct, control and point the air correctly in any direction, in this representation with a descending and ascending direction. In a representation by means of lines with arrows, it can be observed that the directions of the air flows form a network crossing each other surrounding the facial, ocular, lateral and rear areas of the user's head, totally protecting the user from contagion by viruses in aerosols, streams of clean air that prevent viruses from contacting the surface of the skin of the neck and face of the user, with the hair, with the ears, with the respiratory tract and with the eyes.
    [0070] Figure 6 shows a representation of a meeting of three people in which the security measures are not kept, nor the separation distance between people. On the left, user U1 can be seen, with the device of the invention in place and in operation, who is fully protected by the multiple air currents around his head, which are common to viruses, these represented in the figure by small points in the environment, they cannot cross and when approaching the airflows, they are blocked, pushed and expelled, avoiding contact and contagion, on the skin, hair, in the eyes, in the respiratory tract and throughout the upper body, head, neck, shoulders, chest and back of user U1.
    [0071] To the right of the drawing, there is U2, an infected person, who is not wearing any type of protection and who is expelling viruses in the form of drops and / or aerosols that are represented by small dots suspended or transported in the air.
    [0072] In the center of the drawing, you can see U3, a person who uses a respiratory protection mask, but does not wear protective glasses, so viruses can contact with the eyes and cause contagion, it is also observed how the viruses reach the skin, hair and the entire upper body of U3, causing contamination of the surfaces.
    [0073] The only fully protected individual being the user of the U1 device, still not wearing a respiratory protection mask, or maintaining a safe distance between people, yet viruses cannot produce contact with any area or surface of U1's upper body. and therefore not producing contagion.
    [0074] Figure 7 shows a rear perspective view of the device of the invention 1, in which it is observed that the device is surrounding the entire circumference of the head and the face of the user, the components 4 are shown, nozzles mobile air outlet on the upper perimeter of the device, nozzles that direct the air flows in all directions around the user, in the same way is component 5, solar panels that are positioned to receive the maximum solar radiation or incidence of light possible. It is shown in this embodiment of the invention that the device has two electronic components for ventilation and air suction 6a, which is located at the rear of the device and which introduces air from the outside to the inside of the device, air that subsequently comes out to injection flow mode, by the multiple mobile air outlet nozzles 4, ventilation component that is protected by component 13, protective filter mesh or net for larger particles that are in the air and component prior to high-efficiency air filters. It is observed under each one of the ventilation components, the charging ports 7, each of which allows the batteries to be recharged from the electrical network or by exchanging energy between other devices with the device of the invention. Finally, component 14 is shown, size adjuster of device 1, said component makes it possible to lengthen or shorten the housing of the device itself, enlarging or decreasing the size of the circumference of the device, acting as a bellows and thus allowing the device to be adapted to any size of the circumference of the head of a user, be it a woman, man, boy or girl, the device being perfectly adjusted by means of component 14.
    [0075] Figure 8 shows a user in profile and another user from the front, in which it is observed that both users are wearing the device of the invention together with prescription glasses. The device of the invention 1, allows the use together with glasses common prescription glasses, solar, and others, as shown in the drawing, the device of the invention is superimposed on the prescription glasses, being comfortable for the user. It is observed that the temple of conventional glasses protrudes from the device 1, through a through hole that is found in the body of the device 1 and that allows the end of the temple to pass behind the user's ears.
    [0076] Figure 9 shows a profile view in which the user wears the device of the invention 1, in this embodiment the device has in its own housing a connector 15, which allows connection with a hollow tube or hose 16, that continuously supplies clean and disinfected air to the interior of the respiratory protection mask, facilitating and relieving the user's breathing, continually renewing the air that is breathed, refreshing and eliminating the heat and steam generated by the exhalation of the breath itself .
    [0077] Figure 10 shows a longitudinal section of the main body or Hardware that is the structure that supports the electronic device of the invention 1, in which the components that form it, the electronic components and the purification and disinfection components are observed. It shows the superposition of the purification and disinfection components that are all integrated in the coupler component 9, the UVC laser led ultraviolet light generator component 11, which disinfect the surface of the high-efficiency HEPA 10 air filters, the sensors 12 that analyze the air and send the information to the software component 22 and operational circuit support on the motherboard 26, powered by the battery 23 for the set of electronic components.
    [0078] Component 13 is shown protective filter mesh or net, superimposed on this is shown the electronic component of ventilation and air suction 6a, which introduces the outside air inside the device through the air inlet hole 20 , which communicates with the component 18 tube or treatment chamber, channel or spiral-shaped pipe to guide and slow down the circulation of the incoming air to carry out the air disinfection treatment by means of the germicidal ultraviolet light generator LEDs 11, before blow the disinfected and clean air outwards, injecting it through components 4. Finally, element 24 is shown, a through hole in the device housing, which allows passing the end of the temples of standard prescription or solar glasses, which they can be used together with the device of the invention at the same time. And protecting that through hole 24 is component 25, a valve mechanical closure, which can only be lowered when the end of the standard spectacle temple presses, raising and plugging the through hole as soon as the temple is removed, thus preventing the hole from remaining open.
    [0079] Figure 11 shows a longitudinal section of the main body or Hardware that is the structure that supports the electronic device of the invention 1, in which unlike the previous figure, in this embodiment of the device, it is shown inside the body of the device 1, a high-efficiency air filter 10, which has a larger size, which increases the filtering capacity and the durability of the same, filter that is disinfected on its surface by the components 11 generators of ultraviolet UVC laser light or led, germicidal light that is directed directly towards the filter 10. Two internal conduits are shown to direct the air flows once filtered to their destination 30a and 30b, being 30a, the conduit that feeds the upper air flows of the device, and 30b, the duct that feeds the lower air flows of the device, so that the air comes out through the mobile air outlet nozzles 4. The two air ducts 30a and 30b, each of them can be opened and closed independently, preferably and not limited, by means of the closing components or doors 29, being able to be stopcocks or any other opening and closing system, doors that rise and fall vertically, opening and closing each duct by means of the air flow opening and closing buttons 28. In this way, by pressing the buttons 28, the two air flows of the device can be left open and the electronic glasses of the invention will expel air through the upper nozzles and through the lower nozzles, or the upper zone or the lower zone can be independently blocked, where no air will escape while in closed mode.
    [0080] Figure 12 shows in another embodiment, a front view of the device of the invention placed and carried by the user, housing or main body of device 1, which has component 6a, an electronic device with the function of introducing air from outside into the inside the device, to finally give it outlet or inject it through the mobile nozzles 4. On the left is shown the button with light 2 for controlling the functions of component 6a and on the right is shown, the button with light 3 for the control of functions of the disinfection ultraviolet light generators. In this incarnation, the device has an element 27, which increases the holding of the device to the wearer's head, avoiding unwanted movements for athletes or professionals who perform postural movements, as well as increasing protection, increasing the number of flows of air and increases the surface of photovoltaic panels 5, increasing the ability to capture radiation from artificial or solar light.
    [0081] Figure 13 shows a profile view of a user with the device of the invention 1, placed in place. In which it is appreciated that the component 6a that introduces the air inside the device, is located on the side of the body or the casing, in this embodiment of the invention the device has short clamping pins 21a, to hold and position the device, behind the user's ear, taking advantage of that space to place inside 21a, space 8 to house the necessary components such as battery, and motherboard circuit, shown located at 21a, component 7 port of USB or mini USB battery charging.
    [0082] Figure 14 shows a user with the device of the invention 1 in a profile view. In which it is appreciated in this embodiment of the invention of the device, which has long clamping pins 21b, which hold the device by the pressure exerted on the user's head, taking advantage of that area to place element 8, space to house the necessary components such as battery, motherboard circuit and component 6a that introduces the air inside the device and this time is located at the back behind the user's ear, activating it and controlling its functions and power, by middle of the button 2 positioned on the side of the body of the casing, it is also shown located in the space or box 8, the component 7 USB or mini USB battery charging port.
    [0083] Figure 15 shows an example of the device of the invention in another embodiment, placed and carried by the user and seen from the front, housing or main body of the device 1 in the form of glasses that has several components 6b, mobile electronic devices with function air suction and direct blowing in different directions, to block viruses in aerosols and harmful particles. Components 6b that suck the air from outside, through the air inlets 20, arranged in the couplers 9, couplers that place the air purification and disinfection devices superimposed one after the other, high-efficiency filter 10, laser light generators or UVC germicidal ultraviolet LED 11, blowing component 6b and filter grid for larger particles 13. Likewise, component 5 is shown in the upper area of the device, photovoltaic panels that feed the device and the battery with clean and renewable energy, which It allows the operation of the device even lacking an electrical network to recharge.
    [0084] Figure 16 shows electronic glasses that generate air flows of the invention 1, in a front view in which users U1 and U2 have the devices in place, it can be seen that the devices of the invention have integrated extra protection components 31a and 32, which both complement the devices 1, to greater protection in the facial, eye and respiratory tract, preferably and not limited to protective components that are transparent, so that the face and lips of the users can be seen by third parties who can better communicate and / or read their lips when speak and be recognized equally by electronic facial recognition devices.
    [0085] Protective component 31a, 31b and 32 that are easily fixed to the devices of the invention, by superposition, these protective components being above the device 1 and held by the components 15 connections for tubes, which act as male or couplers, entered into the through holes 33 of which the protection components 31a, 31b and 32 have. Component 31b is shown in the center of the image, which can be more complete than 31a, for better protection, safety and comfort, counting 31b with a sealing element in its contour 35, which preferably and is not limited to a flange made of rubber, silicone or soft plastic, which adapts perfectly to the skin of the user's face in a watertight manner, and also having 31b a sealing element. filter or valve 34, which allows the user to breathe, in the case of being a hermetic component in its contour and not breathable on its surface.
    [0086] It is observed both in the user U1 as well as in the user U2, that the lower air outlet areas 4b of the electronic glasses of the invention, remain inside the component 31a, 31b and 32, therefore they introduce purified and disinfected air continuously in the internal space of the protection components, between the user's face and the protective element in the case of 31a and 32, and between the face, the surface of the glasses of the invention and the protective element in the case of using the protection element 31b, facilitating and helping the user in each and every case, breathing through the continuous introduction of clean, fresh and renewed air, relieving the heat of the steam generated by exhalation and preventing the elements from fogging protectors as these are transparent. In the same way, it is observed that the upper air outlet areas 4a, of the glasses are always outside the protective components, therefore purified and disinfected air continuously blow to the external space, to block and remove the particles and viruses that are transported in aerosols, preventing them from contacting the surface of 31a, 31b and 32, preventing them from getting dirty and contaminated.
    权利要求:
    Claims (11)
    [1]
    1. Electronic and portable device, for personal protection against viruses and particles in aerosols, characterized in that the main portion of the body is predetermined in the form of glasses that generate multiple continuous air flows against viruses in aerosols (1), which It comprises at least one air inlet from the outside (20), which comprises at least one electronic ventilation, suction and blowing system of continuous air flow directed (6a, 6b), and each independently controlled, by means of of the mobile air outlet nozzles (4) and / or by means of mobile blower fans with angle regulation (6b), which forms a continuous air barrier in all directions surrounding the upper area of the user's body, which blocks , pushes and expels particles and viruses that are in the air. Microscopic particles and viruses that cannot pass through the airflows generated by electronic glasses and cannot approach the user's face, head, chest, shoulders, neck, or back, preventing them from produces contact and / or contagion, with the eyes, with the respiratory tract, with the skin, with the hair and or with the surfaces of the clothing or protective clothing worn by the user.
    [2]
    2. Glasses generating continuous air flows against viruses in aerosols (1), according to claim 1, characterized in that the air flows generated are purified and filtered air, by at least one component (13 and / or 10 ), components configured to be in communication with the air flow. Device that can comprise at least one air filter preferably and not limited in the form of a net or mesh structure (13), preferably manufactured and not limited with a hydrophilic material to minimize accumulation and repel particles on its surface and not block the air inlet, which filters the outside air that is sucked in by the device, filter that is configured and not limited, to filter and retain particles that have a diameter size of between 1 to 10 microns or larger, filter that acts as a single filter to filter dust or pollen or medium large particles, or that can act as a pre filter for greater safety, retaining the largest particles and thus reducing the load of particles to be filtered by the filter (10), increasing the useful life of the second filter lengthening the replacement cycle. Device that purifies the air before it is injected outside by the device, comprising at least one filter for protection against viruses of high efficiency air (10) called HEPA (High Efficiency Partióle Air), configured to filter and retain particles that have a diameter size of up to or greater than 0.3 microns, or that includes, for greater safety, at least one air filter high efficiency called ULPA (Ultra Low Penetration Air), configured to filter and retain particles that have a diameter size of 0.1 to 0.25 microns or larger, both air filters are replaceable, and they are placed and removed from the device easily, by pressure, thread or any other way of fixing. Components (10 and 13).
    [3]
    Device according to claim 1, comprising at least one portable electronic component that generates germicidal ultraviolet light preferably and not limited by UVC short or far wave ultraviolet light, (11) with diode technology called LEDs, or laser diodes of nominated DL , light that can be directed directly towards the surface of the air filters (10 and 13), eliminating the activity of viruses, bacteria and microorganisms retained in the filters, lengthening their useful life and the replacement cycle, increasing the safety in handling and replacement of filters. Device characterized in that the germicidal ultraviolet light can be directed to the component (18), tube or internal treatment chamber, channel or pipe preferably shaped and not limited in a spiral, to guide and slow down the circulation of the incoming air, to thus carry out the disinfection treatment of the air entering the device, by exposing the air to ultraviolet radiation from the generators (11) components configured to be in communication with said air flow, before blowing or injecting the air towards a target .
    [4]
    Device according to claim 1, which is portable and autonomous, which has at least one rechargeable battery (23) and which can have photovoltaic solar panels (5), which allow the operation of the device and the charging of the batteries directly. by means of photovoltaic solar energy and / or directly in the electrical network through a USB or mini USB charging port (7), or recharging energy by transferring energy with any other electronic device that has USB or mini USB.
    [5]
    Device according to claim 1, further comprising an electronic module Software and motherboard circuit (26) that allows the management of all the functions of the electronic components, which is configured for the wireless use of communication and surveillance of air quality through sensors (12), configured to measure the degree of air pollution, detect dispersed, distributed or airborne particles and the level of carbon dioxide or Co2.
    [6]
    Device according to claims 1 and 5, comprising a mobile application configured for communication and control of the functions of the hardware components as a whole of said electronic device (1) and software (26), which allows with or wirelessly, send, receive and process information related to device functions and air quality or pollution.
    [7]
    Device according to claim 1, configured to be able to be used at the same time, carried, accommodated or integrated, together with personal prescription glasses and / or solar, the device being superimposed with the standard glasses and allowing the elements (24 and 25) the exit of the pins.
    [8]
    Device according to claims 1 and 3, further comprising a watertight protection zone (9 and 18) that does not allow the germicidal ultraviolet light to be directed directly to the user.
    [9]
    Device according to claims 1 and 3 comprising installed in an internal space of the main body of at least one disinfection treatment chamber, channel or pipe with a preferably spiral shape (18) to guide the circulation of the air that is introduced from the air inlet, and to perform the air disinfection treatment by UVC germicidal ultraviolet light, before blowing the air towards a target.
    [10]
    Device according to claim 1, comprising at least one connector (15) for the outlet of air that has been previously filtered and / or disinfected, a connector where one end of a hollow tube or silicone, rubber or rubber hose is placed. plastic (16) and the other end of the tube (16) is positioned inside the respiratory protection mask, the device being connected to the interior cavity of the mask. Hose or tube (16) that continuously supplies clean air into the mask.
    [11]
    Device according to claims 1 and 10, comprising at least one connector (15), which can be used as a male coupler to integrate or couple in the air-generating electronic glasses of the invention (1), a compatible protective component (31) with or without air filter or exhaust valve (34), with or without hermetic contour rim (35), or integrate a protective face component (32), both components increase the safety of the device, components that are They are coupled through the through holes (33) where the male (15) enters, leaving the elements (31 and 32) superimposed on the device (1).
    Ventilating the device of the invention (1) through the lower area of air outlets, the interior area of both elements, facilitating the user's breathing and relieving the exhalation vapor, avoiding fogging of the surfaces of the protection mask and protective face shield. And by ventilating the outside area, through the upper area of the air outlets of the device, blocking and moving away viruses and particles that are in aerosols and avoiding contact and contamination of the surfaces of the mask and the screen (31 and 32) .
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20050284470A1|2004-06-29|2005-12-29|Chengping Wei|Method and apparatus for micro-environment control|
    JP2007301317A|2006-05-08|2007-11-22|Shinyo Sangyo Kk|Fresh air supplying apparatus capable of being attached to wear, accessary or the like|
    US20130118506A1|2009-10-23|2013-05-16|Oleg Igorevich Osipov|Method for protecting breathing organs and eyes from aerosols and device for implementing the same|
    US20200215359A1|2014-12-04|2020-07-09|ResMed Pty Ltd|Wearable device for delivering air|
    US20180311515A1|2015-10-25|2018-11-01|John Paul WILSON|Facial shielding system for protection from environmental hazards|
    ES2778847A1|2020-04-13|2020-08-12|Lage Fernandez Ruben Abel|DEVICE FOR PRESERVATION AGAINST CONTAGES OF PATHOGENS THROUGH THE FACE |
    法律状态:
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    ES202130057A|ES2834120B2|2021-01-26|2021-01-26|INTELLIGENT GLASSES GENERATING AIR FLOWS AGAINST VIRUSES IN AEROSOLS|ES202130057A| ES2834120B2|2021-01-26|2021-01-26|INTELLIGENT GLASSES GENERATING AIR FLOWS AGAINST VIRUSES IN AEROSOLS|
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