RU178660U1 - Device for cleaning and regenerating air - Google Patents

Abstract

The utility model relates to the field of purification and normalization of air in closed residential and industrial premises. The essence of the utility model: a device for cleaning and regenerating air contains a housing in which a fan, a filter and an air ionization unit are located, while a cleaning matrix is additionally installed in the housing, and the filter is located at the rear of the housing. Several cleaning matrices can be installed for particularly dirty large rooms. As a cleaning matrix, an Active Pure matrix can be installed, RCI - Radiant Catalytic Ionization, PCO - Photo Catalytic Oxidation, REME - Reflective Electro Magnetic Energy, PHI - Ionized-Hydro-Peroxides. An ozone generator can be additionally installed in the housing by placing it near the cleaning matrix. 2 C.p. fs, 3 ill.

Description

The utility model relates to the field of purification and normalization of air in closed residential and industrial premises.

A well-known climatic chamber, including an external heat-insulating shell, a treatment chamber made of salt blocks, an air conditioning unit, a filter saturator (RF Patent No. 20044228, IPC A61G 10/02, publ. 15.12.1993).

A disadvantage of the known climate chamber is the difficulty of use (due to the need to prepare a special room) and narrow functionality.

A known installation for creating a therapeutic environment containing an outer and inner shell, a filter saturator, the breathable base of which is in communication with a fan, and the active material of which is rock crushed salt, and a filter saturator operating in a suspended layer mode, contains nozzles with active material, made in the form of plates in the form of a lattice, whose axes are offset relative to each other by an angle of 45 ° to ensure uniform distribution of air throughout the volume of the active mat series, while the active material has a particle size of 0.25-1 mm and a predetermined chemical composition: KCl - not less than 38.3%, NaCl - not less than 58.3%, CaSO4 - 2%, MgCl2 - 0.02%, insoluble precipitate is not more than 1%., and the filter-saturator consists of six replaceable elements (RF Patent No. 2126673, IPC A61G 10/02, publ. 02.27.1999).

The disadvantages of the known installation for creating a therapeutic environment are low operational properties, the need for clean preventive work to clean the filter from wet contaminants.

Closest to the device for purification and regeneration of air is a device for purification and ionization of air, consisting of a housing in which along the air stream there is a fan, a filter filter block with breathable bases containing natural salts and / or minerals of rock, characterized in that a fan with a filter and a heater are installed behind the fan, and an air ionizer is placed behind the filter-saturation block, while the breathable bases of the filter-saturation block are under itsatelnym electric potential; filter saturation unit, filter nozzle, fan, heater, air ionizer are made in the form of removable cartridges (RF Patent No. 151202, IPC A61L 9/22, B01D 46/00, published on 03/27/2015).

A disadvantage of the device for cleaning and ionizing air is its low operational efficiency and narrow functional capabilities.

The utility model is based on the technical problem of creating a device for cleaning and regenerating air, in which due to design changes it becomes possible to increase the efficiency of its operation and expand its functionality, due to air regeneration - restoration of its normal chemical composition, changed as a result of human activity, technical devices, etc.

This technical problem is solved by a device for cleaning and regenerating air, comprising a housing with a fan, a filter and an air ionization unit housed in it, in the housing of which, according to the proposal, an additional cleaning matrix is installed, and the filter is located in the rear of the housing.

Depending on the volume of the room and the degree of air pollution, several cleaning matrices (and several fans) can be installed.

As a cleaning matrix can be used matrix:

- Active Pure, RCI (Radiant Catalytic Ionization) - see, for example:

https://www.vollara.co.th/vollara_home/virtual_home/public/files/pdf/ActivePureSellSheet.pdf;

- PCO (Photo Catalytic Oxidation) - see, for example:

https://www.sciencedaily.com/releases/2015/07/150715130835.htm, or

http://greentechcis.net/pdf/gt3000/pco_technology.pdf;

- REME (Reflective Electro Magnetic Energy) - see, for example:

http: //pureair.so.in/pure_air_reme.html, or

http://greentechcis.net/product/94;

- PHI (Ionized-Hydro-Peroxides) - see, for example:

http://www.rgf.com/article/hydro-peroxide-for-iaq/, or

http://greentechcis.net/product/90.

The drawings schematically depict one embodiment of a device for purifying and regenerating air, where in FIG. 1 is a perspective view of an apparatus for cleaning and regenerating air in front; FIG. 2 is a perspective view of an apparatus for cleaning and regenerating air from the rear; FIG. 3 is a schematic sectional view of a device.

A device for cleaning and regenerating air, comprising a housing 1, in which a fan 2 and an air ionization unit 3 are located in the airflow direction. A fan 2 is located at the front of the housing 1. The filter 4 is located at the rear of the housing 1. The device is equipped with an inclusion unit 5, located, for example, on the side of the housing 1. Two cleaning matrices 6, 7 (example) are located in the housing 1. At the cleaning matrices 6, 7 there is an ozone generator 8. The device is also equipped with a control unit 9, located, for example, in the upper part orpusa 1 and 2 connected to a fan, switching unit 5 and the cleaning matrices 6, 7.

The device for cleaning and regenerating air works as follows: the switching unit 5 located on the side of the housing 1 is activated. After that, the control unit 9 and the fan 2 located on the front of the housing 1 are activated. The polluted air enters the housing using the fan 2 1 (air movement is shown by arrows). After that, the control unit 9 includes cleaning matrices 6, 7, an ozone generator 8 and an air ionization unit 3. The contaminated air is cleaned of dust, mold, etc. using the air ionization unit 3. Cleaning matrices 6, 7 oxidize the air, creating natural oxidizing agents in it, purifying it of viruses, pathogens and harmful microorganisms. Ozone generator 8 enhances the process of oxidation of odors, which allows you to quickly and efficiently remove them from the air. Natural oxidizing agents enter the working area of the room (not shown in the drawing), clean it, creating a natural microclimate safe for humans and animals. The filter 4 is located on the rear of the housing 1 and protects the cleaning matrix 6, 7 from the ingress of large contaminants. During the working cycle, the control unit 9, located in the upper part of the housing 1, starts and monitors the operation of the device for cleaning and regenerating air.

Air is a necessary element of human and animal life. During the manufacturing process, a variety of harmful substances enter the air in enclosed spaces that create atmospheric pollution. The term "atmospheric pollution" should be understood as the presence in the outside air of various odors, gases and aerosols, dust, harmful microorganisms that adversely affect living organisms, worsening their living conditions. The quantity and assortment of pollutants (especially industrial emissions) have increased so much that it is the natural environment that is not able to neutralize them naturally.

The main pollutants of industrial enterprises are: ferrous and non-ferrous metallurgy, chemical industry, cement plants and enterprises that burn fuel, and others. Ferrous metallurgy enterprises also emit various harmful substances (dust, sulfur dioxide, carbon oxides, silicon, manganese, phosphorus) into the atmosphere. compounds of arsenic, lead, mercury vapor, rare metals, cyanide acid and Fe oxides, which in the form of smoke fall into the air).

The chemical industry, in turn, is characterized by a large number of emissions of harmful substances. But compared to metallurgy, the chemical industry provides less emissions. The main ones are СО ₂ , nitrogen oxides, SO ₃ , NH ₃ , dust from inorganic production, sulfide acid, organic substances, CS ₂ , compounds of chlorine, fluorine, etc. Pulp and oil refineries are distinguished by emissions of gas wastes from the atmosphere with pungent odor. It is also characteristic that all these air pollutants during chemical reactions can create large concentrations of highly toxic substances. The sources of air pollution also include the production of cement and building materials. The main technological processes of these industries are grinding processes and heat treatment of charges, semi-finished products and products in the flows of hot gases, which is associated with the ingress of dust into industrial premises and its emissions into the atmosphere.

The source of atmospheric pollution in rural areas are livestock farms (poultry houses and pig farms), industrial complexes for the production of meat, processing enterprises. In the area where livestock and poultry are housed, ammonia, carbon disulfide, and other gases can penetrate and spread over considerable distances.

According to experts, agriculture accounts for up to 20% of all emissions of toxic substances into the environment. One of the largest environmental pollutants among agricultural producers is the poultry and pig industry. Particularly negatively, poultry and pig enterprises affect air in production rooms and the surrounding atmosphere by polluting them with emissions of harmful gases and dust, which are formed as a result of the life of poultry and pigs, microbiological decomposition of litter, litter and other waste; micro- and macrobiological pollution of the environment (microorganisms, helminths, flies, etc.).

Among gaseous emissions from poultry and pig farms, ammonia emissions are the most harmful to the environment. The ammonia of ventilation emissions, reacting with acidic compounds of the atmosphere, and then falling to the ground along with precipitation, is the main cause of soil acidification. This can affect both the presence in the soil of substances necessary for plant growth and toxic elements. Along with this, ammonia promotes eutrophication, or nitrogen enrichment of soil poor in nutrients, upsets the balance of sensitive ecosystems, causing either increased growth or the disappearance of certain plant species. Ammonia can also have a direct negative effect on plants, damaging leaves and slowing plant growth. Carbon dioxide emissions contribute to its increase in atmospheric air, which is one of the reasons for the greenhouse effect and general climate warming. According to studies conducted in the Russian Federation, the ammonia content in the territory of large poultry farms and pig farms ranges from 0.3-1.42 mg / m ³ . The results of the studies showed that the population living in the area where poultry farms and pig farms are located (including children) showed an increased incidence rate associated with respiratory, infectious and parasitic diseases, as well as digestive diseases.

Another negative factor in the microclimate in the premises of the poultry house and pigsty, which has a significant impact on the safety and productive indicators of poultry and pigs, the health of staff, the environment, is microbial air pollution. It is known that in poultry houses there is a bird, and on pig farms a pig litter, litter, dust, feed, water is a favorable environment for the development and spread of microorganisms, including pathogens.

Contaminants adversely affect the well-being and health status of a person. And in the case of their constant impact on the human body, this can lead to serious diseases.

Therefore, the task of air purification in enclosed spaces during the industrial process is relevant for different countries of the world. One of the directions for air purification during production processes is a variety of devices for air purification and ionization.

The proposed design of a device for cleaning and regenerating air, unlike existing analogues, has increased operating efficiency and enhanced functionality. This is ensured by the developed structural changes of the device for air purification and regeneration, one of which is the use of Active Pure, RCI, РСО, REME, PHI as cleaning elements.

Claims (3)

1. A device for cleaning and regenerating air, comprising a housing in which a fan, a filter and an air ionization unit are located, characterized in that an Active Pure cleaning matrix is additionally installed in the housing and the filter is located at the rear of the housing. 2. A device for cleaning and regenerating air according to claim 1, characterized in that several additional cleaning matrices are additionally installed. 3. A device for cleaning and regenerating air according to claim 1 or 2, characterized in that an ozone generator is additionally installed in the housing located near the cleaning matrix.

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