WO2022075891A1

WO2022075891A1 - Device for purifying and disinfecting air and improving the microclimate in an indoor space

Info

Publication number: WO2022075891A1
Application number: PCT/RU2021/050335
Authority: WO
Inventors: Александр Юрьевич ВАГАНОВ
Original assignee: Александр Юрьевич ВАГАНОВ
Priority date: 2020-10-10
Filing date: 2021-10-08
Publication date: 2022-04-14

Abstract

The invention relates to the field of air conditioning and can be used for purifying, disinfecting and humidifying air in any indoor spaces. The claimed device comprises a closed vertical housing in which are arranged a part for growing plants, an irrigation system (1), (2), a system for illuminating plants (7), and an automatic control system (10). The device contains an air filtration system (4), (8), (11) comprised of at least two types of filters. The device contains an air humidification system, and an air disinfection system (9), the main element of which is a source of UV radiation. The irrigation system inside the device is based on the principle of a hydroponic wicking system and contains a component (3) for sterilizing an irrigation fluid. The housing of the device consists of individual modules (6). Each module contains a built-in irrigation system, an air humidification system, and a part for growing plants in the form of removable containers (5) with plants grown in a substrate or soil, and special places in the module for installing same. The device makes it possible to improve the quality of air by purifying it of suspended particles, harmful gases and smells using the filtration system, and removing microorganisms.

Description

A device for cleaning and disinfecting air and improving the microclimate of the room

The utility model relates to the field of air conditioning and can be used to clean, disinfect and humidify the air in any premises (residential, medical, industrial, commercial and others). In addition, the utility model relates to the field of crop production and can be used for growing plants on vertical surfaces and landscaping.

Indoor air quality, where people spend most of their time, is one of the most important parameters of human health and well-being. Studies show that indoor air pollution can be several times higher than outside.

Contaminants such as dust and microorganisms (viruses, bacteria and spores of fungi and mold), gases and other volatile compounds are usually present in the premises.

The most common indoor pathogens are: various viruses, staphylococci, streptococci, sarcins, Pseudomonas aeruginosa and Escherichia coli, as well as fungal spores.

In addition, there are many hazardous substances emitted from buildings, building materials and furniture. Volatile chemical compounds found in the air more often than others: formaldehyde, phenol, benzene, styrene, ethylbenzene, toluene, xylene, aldehydes, acetone, ammonia, ethyl acetate, nitrogen oxides, carbon oxides.

Pollution and pathogens in the air lead to a decrease in the functions of the human immune system and the manifestation of various diseases, from allergies to pneumonia, as in the case of the COVID-19 pandemic. Over the past few years, several outbreaks of viral diseases have been recorded in the world, including the COVID-19 pandemic. Currently, air purification from microorganisms and other volatile compounds is the most relevant.

Household dust is a sorbent and accumulator of substances polluting indoor air. The complex of compounds polluting the indoor air is an active stimulator of the allergenic properties of dust.

The presence of a large number of people staying indoors for a long time accelerates the growth of the number of microorganisms in the air.

Currently, the following methods are used for air purification: physical, chemical and biological.

The claimed device is a combination of the most environmentally friendly methods of cleaning and disinfection of air - physical and biological.

A device for growing plants is known from the prior art (WO2013014337A2, publication date 01/31/2013) which includes a housing with embedded plants in the substrate, an irrigation means for irrigation and a means for creating an air flow through the substrate with plants. At least some of the plants, along with their substrates, are housed in modular growing units (hereinafter referred to as containers) and there are places in the housing for containers in which they can be installed in a removable manner, regardless of the means of irrigation. Air is sucked into the body through containers with the substrate and plant roots and blown out through special openings in the upper part of the device body. The device uses containers with substrate and plants as a filter.

As the air passes through the root system of plants, various airborne particles such as dust settle on the roots of plants, resulting in rapid contamination, reduced lifespan of plants and frequent maintenance of containers.

Irrigation of plants inside the housing is carried out by vertical irrigation of containers containing a substrate with plant roots. Partially washing away dirt from the roots, the irrigation liquid is not subjected to disinfection and is used for repeated watering of plants.

Air passing through containers with plant roots and blown into the room also does not undergo bactericidal treatment.

Thus, the above technical solution does not provide effective purification of the blown air. In addition, there is a risk of airborne spread of microorganisms from substrate containers.

The closest analogue (prototype) to the claimed utility model is a mobile air purifier for growing plants (CN209197026, publication date 08/02/2019), which contains a vertical housing, a part for growing plants, a part for air filtration, a part that enhances plant growth, exhaust air heating system, micro-irrigation part and automatic control part. Means for watering is made in the form of droppers brought out from the body above each container with a plant.

The disadvantage of the prototype is the lack of bactericidal treatment of the blown air flow. Consequently, there is no elimination of harmful microorganisms in the air stream.

Also, the part that enhances the growth of plants warms up the blown air, which inevitably increases the temperature of the air in the room, dries it and leads to a decrease in the overall humidity of the air in the room. The device does not have an air humidification system.

The drip head irrigation system does not provide the level of fluid intake required by a particular plant species, which can lead to various plant diseases, the development of mold, fungus and, as a result, the death of plants, as a result of excessive or insufficient moisture. The design of the plant irrigation system, which provides for the removal of the drip head separately above each container outside the vertical housing, greatly complicates the design of the device.

The design of the device is a single unit and does not provide for an increase in area to improve performance. The prototype device by design is only a planting platform instead of a finished product with a plant configuration, therefore, the consumer needs special knowledge in the field of botany for the selection and planting of certain varieties of plants that purify the air, as well as self-configuring automation systems. In addition, it is known that the air purification performance of plants depends on the size and number of leaves, thus, growing plants from seeds will not achieve effective air purification compared to mature plants of specially selected varieties.

The claimed utility model is a device for cleaning and disinfecting air and improving the microclimate of a room, including a vertical closed-type housing that contains a part for growing plants, an irrigation system, an air filtration system, a plant lighting system, an automatic control system, characterized in that the filtration system air includes at least two types of filters; the device contains an air disinfection system, which contains as a main element at least one source of ultraviolet radiation; contains an air humidification system; the vertical body consists of at least one module, which contains the irrigation system, the air humidification system and the plant growing part, and the modules can be interconnected to increase the area of the device and increase productivity. At the same time, the irrigation system is built on the basis of a wick hydroponic system. In addition, the irrigation system contains an irrigation fluid sterilization component.

The task to be solved by the claimed utility model is to create an efficient, environmentally friendly and economical device for improving indoor air quality.

In the claimed device, air purification is achieved due to the filtration system, which is a multi-stage system consisting of several types of filters to increase the purification efficiency and achieve a technical result. Using different types of filters has a complementary effect.

In the claimed device, the following types of filters can be used, both all together and in different combinations: a mechanical filter is used as a filter for preliminary (coarse) air purification from large particles of dust, fluff, animal hair, etc.; fine filter retains fine dust particles, mold spores, pollen, etc.; the carbon filter is used to adsorb harmful gases and unpleasant odors; high efficiency air purification filter, HEPA type filter.

Disinfection in the claimed device is achieved due to the system of bactericidal treatment of the air flow, which eliminates various microorganisms, including viruses. The main element of such a system is ultraviolet radiation (hereinafter referred to as UV radiation).

UV radiation is a physical disinfection method based on photochemical reactions that cause irreversible damage to the DNA and RNA of microorganisms. As a result, microorganisms stop reproducing (are inactivated) and die.

The claimed device uses special UV emitters such as UV-C or UV-A. The use of such emitters does not affect the physicochemical and organoleptic properties of the air.

In the claimed device, UV emitters are located in a special chamber for processing air flows, which excludes the exit of UV rays beyond its limits. A catalyst, such as a coating of titanium dioxide, may also be used to obtain a photocatalytic effect.

As an additional means of air disinfection in the proposed device can also be used high-performance air purification filters - HEPA filters (EPA-, HEPA-, ULPA-filters). These filters can be used in conjunction with a UV source to enhance the sanitizing effect of the device. Modern HEPA filters retain the smallest suspended particles, including microorganisms.

An additional method of air purification is biological. The role of a biological filter is played by living plants. The natural biochemical processes occurring in plants help to purify the air and improve the microclimate in the premises.

Plants absorb carbon dioxide from the surrounding air. Chlorophyll and other pigments in the leaves capture energy from the light source (lighting system in the claimed device). This energy is used to split the water molecule into oxygen and hydrogen ions. As a result of chemical reactions, plants use hydrogen and absorbed carbon dioxide to synthesize the carbohydrates they need for life, and oxygen, as a by-product of photosynthesis, is released into the air. Plants can also purify the surrounding air from both gaseous substances and suspended particles and microorganisms.

An adult plant with large leaves with a large area or a large number of small leaves is suitable for purifying indoor air. It is the leaves that work as a biological filter. The claimed device uses specially selected plant species that have the highest cleansing ability.

For photosynthesis to proceed in the optimal mode, the leaf or the plant itself must receive a sufficient amount of light energy, water and carbon dioxide. In the claimed device, optimal conditions are achieved thanks to the plant lighting system and the irrigation system based on the wick hydroponic system, where the plant consumes as much irrigation fluid as it needs. Sufficient carbon dioxide levels are achieved by placing the device in rooms with people, such as offices, apartments, medical institutions, educational institutions and others.

Plants emit phytoncides - substances that kill or inhibit the growth and development of pathogenic microorganisms (bacteria, viruses, fungi, etc.) and at the same time improve air quality.

Phytoncides of plants, in the claimed device, contribute to additional air disinfection, and also increase the content of light negative ions while reducing heavy ones.

Thus, plants change not only the chemical composition of the air, but also the physical state of its molecules, through ionization.

The proposed device contains a plant lighting system that allows you to maintain an optimal level of plant illumination. The device uses light sources of a certain spectrum and wavelength necessary for the growth of plants and the formation of deciduous mass. Thus, the system of additional lighting in the proposed device allows you to maintain continuous phytoncidal activity of plants, regardless of the time of day and season.

The vertical type of design of the proposed device makes it possible to efficiently and economically use the space of the room and place a larger number of plants per square meter of the device to increase its productivity. In addition, individual modules of the device can be connected to each other to increase the wall coverage area in height and width.

Part for growing plants, includes removable containers with soil or substrate and growing plants and special places in the module for installing removable containers. This technical solution simplifies the operation of the device and allows you to easily and quickly install and replace containers with plants.

In the claimed device, air humidification is achieved due to the technology of uniform evaporation of the irrigation fluid in open horizontal irrigation channels inside the device and the natural properties of plants to evaporate moisture from the surface of the leaves.

The air humidification system is a system of open horizontal irrigation fluid channels located inside each module, used to distribute irrigation fluid and bring it to the plant containers and a means of creating a forced air flow inside the housing, such as a fan. The air inside the vertical housing does not come into direct contact with the soil and the root system, as they are in insulated containers, which excludes the penetration of microorganisms that may be contained in the soil into the air stream.

The irrigation system comprises a reservoir with irrigation liquid, an irrigation liquid sterilization component, an irrigation liquid supply system (water pump, a supply tube), an irrigation liquid distribution system in the form of open horizontal channels, and an irrigation liquid supply system to containers with plants based on a wick hydroponic system.

The wick system provides automatic supply of irrigation fluid to the roots of plants due to the action of capillary forces. As a result, the plants in the device consume as much irrigation fluid as they need for their life activity (including for the efficient flow of photosynthesis processes, volatile activity and air humidification), regardless of their species composition. Such a system is simple to implement and economical, since it does not require frequent start-up of the irrigation system and allows economical use of the irrigation fluid in the device.

Thanks to the sterilization component built into the tank, the irrigation fluid is disinfected, which allows the irrigation fluid to be reused in the device. Sterilization of the irrigation fluid prevents microorganisms from entering the air stream passing inside the module. This solution improves the efficiency and economy of the proposed device.

The automatic control system allows you to configure the device for optimal operation of all its elements and achieve a technical result. Automatic control of lighting, irrigation, air filtration and disinfection systems, as well as a control unit for the above systems, allows you to configure the device to work in automatic mode.

Using various sensors, such as temperature, humidity, light, air pollution sensors, the control system determines various parameters of the air and the environment, which allows you to optimize the operation of the device. And the wireless data transmission module allows you to configure the device operation remotely.

The technical result provided by the above set of features is the improvement of indoor air quality.

The technical result is achieved due to the elimination of suspended solid particles and microorganisms (bacteria, viruses, fungal spores, mold) from the air, absorption of gases and odors. There is humidification of the air, saturation of the air with oxygen, air ions and phytoncides.

The essence of the utility model is illustrated by a drawing, which illustrates an example of a general view of the device.

Figure.1

shows a general view of the device, where (1) - irrigation fluid reservoir, (2) - irrigation fluid supply system, (3) - irrigation fluid sterilization component, (4) - air inlet, (5) - removable containers with soil or substrate and cultivated plants, (6) - modules, (7) - plant lighting system, (8) - air filtration system, (9) - air disinfection system, (10) - automatic control system, (11) - air outlet .

An example of the implementation of the utility model.

A reservoir with irrigation fluid is installed (1).

The modules (6) of the device are tightly connected to each other and to the tank (1).

In special places (holes) in the modules, containers (5) containing soil or substrate with grown plants are installed.

The device is connected to the power supply.

Then the following systems are automatically launched: sterilization of the irrigation liquid (3) and its supply (2) to the distribution system and supply to containers with cultivated plants; launch of plant lighting system (7); launching the airflow tool inside the modules. Air is drawn in at the bottom of the module (4) and passes through the first stage of filtration with coarse filters, then, rising up inside the modules, the air passes through the air humidification system, then the air passes through the second stage of filtration (8) with fine filters, where fine filters are eliminated. suspended particles, then the air passes through a carbon filter where it is cleaned of odors and gases. Next, the air is disinfected (9) using a source of UV radiation and HEPA filters. The purified, disinfected and humidified air stream is blown out in the upper part of the module (11).

The device operates in automatic mode. In accordance with the settings of the automatic control system (10), the lighting, irrigation, filtration, disinfection and air humidification systems, irrigation fluid sterilization, plant soil condition analysis, indoor air temperature and humidity analysis are started and stopped.

The device can be used to improve indoor air quality. The technical result is achieved by cleaning the air with a filtration system from suspended particles (dust, fluff, wool, etc.), absorbing harmful gases and odors by filters, eliminating microorganisms (bacteria, viruses, mold and fungus spores) using an air disinfection system, humidifying the sterilized air flow irrigation fluid. Thanks to plants, the composition of the air improves by absorbing carbon dioxide and harmful volatile compounds, saturating the air with oxygen, air ions, and phytoncides. The device increases the speed of movement of air masses in the room. In addition, vertical gardening improves indoor soundproofing.

Claims

A device for cleaning and disinfecting air and improving the microclimate of a room, including a vertical closed-type housing that contains a part for growing plants, an irrigation system, an air filtration system, a plant lighting system, an automatic control system, characterized in that the air filtration system includes at least two filter types; the device contains an air disinfection system, which contains as a main element at least one source of ultraviolet radiation; the device contains an air humidification system; the vertical body consists of at least one module, which contains the irrigation system, the air humidification system and the plant growing part, and the modules can be interconnected to increase the area of the device and increase productivity.
The device according to claim 1, characterized in that the irrigation system is built on the basis of a wick hydroponic system.
The device according to claim. 1, characterized in that the irrigation system contains a component for sterilizing the irrigation fluid.