RU2212592C1 - Method of and device for cleaning plenum air - Google Patents

Abstract

FIELD: air cleaning. SUBSTANCE: invention relates to domestic air cleaners and methods of cleaning of air and its deodorization. It can be used in dwelling housing, hospitals, laboratories, transport and everwhere where high degree of air cleaning is required. According to proposed method air flow is formed and force directed as required. Prior to air delivery, large dispersed particles are removed from air and then air is subjected to treatment with electrostatic field and conditions are provided to exclude getting of precipitation into air flow. After treatment with electrostatic field, air flow is subjected to process of absorption and decomposition of gas admixtures with maintaining optimum cleaning conditions by means of primary converters and control elements basing on whose readings cleanness of air getting into room is judge. Device contains housing accommodating series-mounted entrapping, settling and absorbing filtering elements and electric fan, precipitation protection unit, decomposition filtering element, primary converters and control signal shaper and control unit. EFFECT: improved efficiency of air cleaning, operation reliability, reduced cost and mass and dimensions. 12 cl, 1 dwg

Description

 The invention relates to the field of household air purifiers, in particular to methods and devices for air purification and odor elimination, and can be used in residential premises, hospitals, laboratories, in vehicles, and also wherever there is a need for highly purified air.

 For a day we consume up to 20 kg of air, i.e. much more than all food (water and food a person consumes about 3 kilograms). Even if the impurities in the air do not exceed the maximum permissible concentration (MPC), this means that each day we consume from 15 to 100 mg of poisons such as carbon monoxide, formaldehyde, benzopyrenes and other compounds, the amount of which increases by a factor of ten big cities. A person at rest takes 16-18 breaths-exhalations per minute and for about an hour passes through the lungs about 1100 liters (more than 1 cubic meter) of air.

 In residential areas near the highway, the level of pollution from carbon monoxide and nitrogen oxides exceeds the MPC by 10-15 times. This means that exactly the same concentration of pollutants can be found at home. It is impossible to hide from street volatile pollutants behind any sealed double-glazed windows - there is simply nowhere for clean air to come from. But that is not all. There is one trouble that has already happened in Europe and awaits us. In Germany, the result of the struggle to preserve heat in residential premises (wall insulation and sealing windows with double-glazed windows) was the massive spread of mold and, as a result, a surge in allergic diseases. The problem has taken on a national scale. The reason is a decrease in air exchange and an increase in humidity due to total sealing. A person exhales through the lungs 15-18 l of CO and 50 g of water per hour. Rescue tool known: frequent ventilation or active ventilation. But if the Germans solve their problems centrally - they modernize the ventilation system of their housing, then the Russian owners of double-glazed windows in their apartments are forced to fight themselves.

 Finding a person in a room with air conditioning and double-glazed windows on the windows is like finding a person in a submarine. But if the boat has an air regeneration system, then residential and working rooms require intensive ventilation and fresh air.

 Since medical care has become "beyond the means" of many, and measures to maintain the environment do not keep pace with the speed of its pollution, there is a need to independently fight for their health. Food and drinking water have long been in the field of view of the consumer. The time has come to take care of the purity of the air we breathe.

 Massive, over the past few years, advertising of Western manufacturers of air conditioners has done its job. Air conditioning, of course, is useful and even needed in hot and humid climates, in the cold expanses of Russia, a thing that is used only on a few warm days and is economically ineffective, and in the long months of autumn, winter and spring is simply useless. The widespread myth that good air conditioning provides forced ventilation finally comes to naught. And the external air conditioning units hang on the walls of the buildings, demonstrating the well-being of the owners, who paid a lot of money for less useful fun.

 Also, the use of a variety of devices for cleaning indoor air is devoid of logic. Only part of the air near the appliance is cleaned, and most of it remains stagnant, contaminated and of poor quality.

 The obvious illogicality of our mass behavior is to try to clean the air already in the room, instead of cleaning it when it enters the room.

 The conclusion from the foregoing is obvious - it is necessary to ensure a constant forced flow of purified air into the room.

 A known method of processing air, which consists in filtering, heating or cooling, the air is ionized, ozonized and fed into a positively charged spiral heat exchanger, while performing additional cleaning.

 The method allows to solve the problem of air purification, however, the cleaning is not carried out in full, while conditions are created for the emergence of various bacteria (RU patent 2156925, F 24 F 3/16).

 A device for air purification is known, which contains a housing 1, an ionization filter 2 with a corona 3 and a precipitation 4 electrodes connected to a high-voltage power supply 5, an electrode plate 6 with a serrated edge 7, a bath electrode 8, a fan 9 (SU A.с 176881, F 24 F 3/16).

 A device for air purification works as follows.

 The power of the ionization filter 2, the electrode plate 6 and the bath electrode 8 is supplied from the high-voltage power supply 5, when switched on from the high-voltage power supply 5, voltage is supplied to the ionization filter 2, the electrode plate 6 and the bath electrode 8. Then it is turned on the operation of the fan 9, due to which the air rising from the gas stove enters through the external pre-filter into the ionization filter 2, undergoing the process of electrostatic deposition. Then it passes between the serrated edge 7 of the electrode plate 6 and the bath electrode 8 through an activated carbon filter, a fan 9 and further out.

 The device allows air purification, however, the cleaning takes place indoors near the source of pollution, in a closed cycle, and also requires constant visual monitoring of the state of the surfactant in the electrode bath.

 The problem to which the invention is directed to a method is to increase the degree of purification of the supply air.

 The technical result obtained by solving the problem is to increase the efficiency of air purification.

 The technical result is achieved by the fact that in the method of purification of the supply air, in which coarse impurities are first removed and then exposed to the air by an electrostatic field, conditions are created that preclude atmospheric precipitation from entering the air stream, and after exposure to the air stream of the electrostatic field, they are carried out in series absorption and decomposition of gas impurities in the supply air air stream, while maintaining the optimal cleaning mode using the first transformations and control elements, which testify to the cleanliness of the air entering the room, as well as the fact that coarse impurities are removed from the air stream using a filter element made of material, paper or plastic, as well as the filter element multilayer or single-layer, as well as the fact that the forced flow is created using a domestic electric fan, as well as the fact that the electrostatic field is created using a high voltage voltage using a corona a precipitation and precipitation electrode, which is performed in the form of a volumetric grid, and also because the conditions excluding the ingress of atmospheric precipitation into the air flow are created using electromechanical and mechanical elements, as well as the fact that the absorption of gas impurities is carried out using a filter filled with wood coal or ion-exchange resins, as well as the fact that gas impurities are decomposed using the photocatalytic reaction.

 The problem to which the invention is directed to the device is to create a tool that provides deep cleaning of the supply air entering, in particular, in the living room and corresponding to sanitary and hygienic requirements.

 The technical result obtained when solving the problem is to optimize the design, increase operational reliability, simplify the design, reduce cost, weight and dimensions.

 The specified technical result is achieved in that the device for cleaning the supply air, comprising a housing in which the delaying, precipitating and absorbing filter elements are arranged in series, as well as an electric fan, contains an anti-atmospheric device, decomposing filter element, primary converters and a driver of control signals and control, and the electric fan is located between the site of protection against atmospheric precipitation and the delaying filter element, decomposing filter the th element is located after the absorbing filter element, while the primary converters are connected to the driver of control signals and control, as well as the fact that the site of protection against atmospheric precipitation contains a visor, a drain for water and an electromechanical element in the form of blinds fixed in the housing with the ability to oscillate motion or motionless, as well as the fact that one part of the primary transducers is located on the housing, and the other part is on the filter elements, as well as the fact that the delay filter element The item is made with antimicrobial impregnation.

 Let us dwell in more detail on the method of cleaning the supply air.

 Forced air intake is carried out using a household electric fan, powered by an alternating current network. Coarse impurities in the form of various dust particles with a size of 0.3 microns or more are then removed from the air. Further, the air that has undergone “rough cleaning” is exposed to an electrostatic field created by a high-voltage constant voltage, as a result of which fine dust and soot less than 0.3 microns are removed from the air, after which various toxic impurities that adsorb on the surface are absorbed from the air , for example, a filter filled with charcoal or other filler. At the last stage, the air is purified from volatile organic and inorganic compounds by the photocatalytic method, i.e. decompose harmful impurities under the influence of radiation in the ultraviolet range, resulting in the formation of harmless substances. In this case, the filter "rough cleaning" is performed, depending on the sanitary-hygienic state of the air and operating conditions, single-layer or multi-layer, and they are made from a wide variety of suitable materials. At the same time, conditions are provided that prevent the penetration of precipitation together with the cleaned air, for example, by placing movable blinds. In accordance with the inventive method, control is carried out, for example, of parameters such as humidity, degree of contamination and degree of air purification, air flow rate, etc.

 A device for implementing the proposed method of purification of the supply air is shown in the drawing, where the housing 1 is indicated, in which an electric fan 2 is placed and secured (shown schematically), the filter element 3 is retained, the filter element 4 is deposited, the filter element 5 is absorbed, and the filter element is decomposed, consisting of a porous filler 6 coated with a photocatalyst and a source of ultraviolet radiation, a site for protection against atmospheric precipitation, consisting of a visor 8, drain 9 for water, shutters 10 with electric mechanical drive 11 and limiter 12, the primary converters 13-23, made in the form of sensors and control elements, the shaper 24 of the control signals and control. The arrows show the direction of supply air.

 The housing 1 of the device can be made of any light metals or plastics in several modifications in the shape of a window opening. Fan 2 can be of various power with adjustable speed. As the filter element 3, a wide variety of materials can be used: fabric, paper, plastic nets, the filter can be multilayer with different hole sizes, and the antimicrobial coating can be applied to the filter element, the filter element 4 can be made in the form of a precipitation system, consisting of coronary and precipitation electrodes, which in turn are made in the form of a volumetric grid, the filter element 5 is made in the form of an adsorbing filter, in which the absorber is used charcoal or ion-exchange resins, the filter element consisting of elements 6 and 7 operates on the principle of a photocatalytic oxidizer of harmful impurities on the surface of the catalyst under the influence of ultraviolet radiation, element 8 can be made in the form of a visor restricting atmospheric precipitation into the device, element 9 designed for water drainage, element 10 is made in the form of blinds with holes, is fastened with an electromagnetic drive to the body with the ability to make vibrating movements, element 12 performs the function of a movement limiter for the blinds 10.

 Elements 13 to 23 are standard elements and perform the functions of signal conversion and control assigned to them.

 Shaper 24 in response to signals coming from elements 12-23 generates control actions and displays the status of the device and the degree of air purification in real time. At the output of the device, a protective decorative grille is installed (not shown in the drawing).

 The device for air purification can work both in manual and automatic mode. Manual operation provides for the current monitoring of indications by a person, the adoption by a person of decisions on these indications and, if necessary, intervention in the operation of the device, up to and including turning it off. When operating in automatic mode, the limit values are first set, for example, humidity, degree of pollution, degree of air purification, fan rotation speed, i.e., air flow power, device on and off time, operation time, etc. Set instrument readings it is possible both with the help of touch sensitive elements, and with the remote control.

 Air from the atmosphere is sucked in by fan 2. In order to prevent precipitation from falling into the device and filter damage during rain or snow, the design of the unit for protection against atmospheric precipitation is designed for this, one of the elements 10 of which vibrates vibrating while shaking off water drops to drain 9. The efficiency of this unit is controlled by the humidity control element 5 of the air entering the device. Shaper 24 compares the readings of the humidity control element 13 with the readings of the humidity control element 14 and, based on the information received, gives a command to turn the device on or off.

 In automatic mode, if the atmospheric humidity is such that it can damage the filters (during heavy rain or very heavy snowfall, when the humidity exceeds 80-90%), the humidity control element 13 of the incoming atmospheric air signals this to the device control unit 23, which turns off the fan 9, and displays information about this, when the humidity of the atmospheric air drops to acceptable values, the element sends a signal about this to the driver 23 for controlling the operation of the device, which is on cheat fan 2, and displays the information about it.

 Next, the air enters the housing 1. At the entrance, the element 13 controls the pollution of the air coming from the atmosphere, information about this enters the driver 23 control the operation of the device.

 Next, the air is pre-cleaned by a filter 3, which traps dust and soot and other relatively large contaminants. The control system of the operation of the device compares the readings of the elements 15 and 18 and based on this information commands are given to work or turn off the device. Element 18 controls the operation of the filter, and if you need to clean the filter (during preventive maintenance of the filter, the delayed contaminants are removed with a vacuum cleaner), then sends a signal to the former 23 to control the operation of the device.

 Elements 15, 18, 19, 20, 21, 23 that control the operation of the filters, i.e. the degree of air pollution and its purification can use significant methods of counting polluting particles in the air - ionic, capacitive, discharge, etc.

 Next, the air is cleaned by a filter 4 cleaning, working on the principle of ionization - electrostatic precipitator. Contamination during operation of this filter is deposited on the surface of the filter. For preventative maintenance, they are removed by wiping or rinsing. The control system of the operation of the device compares the readings of the elements 18 and 19 and, based on this information, commands are given to work or turn off the device. Element 19 controls the operation of the filter, and if you need to clean the filter, sends a signal about this to the former 23.

 Next, the air is cleaned by a filter 5 cleaning, working on the principle of adsorption. Contamination during operation of this filter is absorbed in the filter volume. During preventative maintenance, the filter is removed and replaced with a new one. The control system of the operation of the device compares the readings of the elements 19 and 20 and, based on this information, commands are given to work or turn off the device. Element 20 controls the operation of the filter and, if it is necessary to replace the filter, sends a signal about this to the driver 23 to control the operation of the device and display information.

 Then, air enters the photocatalytic filter, where, using radiation from sources of 7 ultraviolet light in the presence of photocatalysts, the contaminants decompose to harmless substances and settle on the surface of the filter. During preventative maintenance, the filter is removed and replaced with a new one. The control system of the operation of the device compares the readings of the elements 20 and 21 and, based on this information, commands are given to work or turn off the device. Element 21 controls the operation of sources of ultraviolet light and sends a signal about this to the driver 23 to control the operation of the device and display information. If the ultraviolet light sources fail, the cleaning device turns off. Element 22 controls the operation of the filter 6 and, if it is necessary to replace the filter, sends a signal about this to the driver 24 to control the operation of the device and display information (control).

 Element 22 also controls the degree of air purification when passing through all the filters and gives a signal about this to the driver 24 for controlling the operation of the device and displaying information. With this control, the degree of air pollution at the inlet and the degree of purification at the outlet of the device ensures the visibility of all components of the device and increases the reliability of its operation.

 Element 16 controls the duration of the device and sends a signal about this to the shaper 24 to control the operation of the device and display information. This allows you to set the desired mode of operation - on and off at a given time.

 Element 17 controls the intensity of the device (fan speed and air flow rate) and sends a signal about this to the driver 24 to control the operation of the device and display information. This allows you to establish intensive work at low values of air pollution in the atmosphere and to reduce the intensity with severe pollution. This will increase the durability of the device and increase its efficiency.

 The fastening of nodes and elements in the application materials is not disclosed in detail, because is an engineering study.

 The examples of the implementation of the nodes and elements illustrate the preferred implementation of the device and in no way limit the rights of the inventors.

 Thus, the presence of filters and units using all possible physical and chemical cleaning methods: a unit for removing excess atmospheric moisture, filters for retaining impurities, absorption of impurities, sedimentation and decomposition of impurities can guarantee reliable operation of the device and a high degree of air purification, corresponding to sanitary hygienic requirements for the maximum permissible concentration of impurities harmful to humans.

Claims (12)

 1. A method of purification of supply air, in which an air stream is forcedly generated and directed, from which coarse impurities are first removed, and then it is exposed to an electrostatic field, characterized in that it first creates conditions to prevent atmospheric precipitation from entering the air stream, and after exposure on the air flow of the electrostatic field, sequentially absorb and decompose the gas impurities in the air flow of the supply air, while supporting wholesale imal mode of cleaning using primary converters and control elements, according to the testimony of which they judge the purity of the air entering the room.  2. The method according to p. 1, characterized in that coarse impurities are removed from the air stream using a filter element that is made of material, paper or plastic.  3. The method according to p. 2, characterized in that the filter element is multilayer or single layer.  4. The method according to p. 1, characterized in that the forced flow is created using a household electric fan.  5. The method according to p. 1, characterized in that the electrostatic field is created by high voltage using a corona and precipitation electrode, which is performed in the form of a volumetric grid.  6. The method according to p. 1, characterized in that the conditions excluding the ingress of atmospheric precipitation into the air stream are created using electromechanical and mechanical elements.  7. The method according to p. 1, characterized in that the absorption of gas impurities is carried out using a filter filled with charcoal or ion-exchange resins.  8. The method according to p. 1, characterized in that the gas impurities are decomposed using a photocatalytic reaction.  9. A device for cleaning the supply air, comprising a housing in which the delaying, precipitating and absorbing filter elements are arranged in series, as well as an electric fan, characterized in that it contains a protection unit against atmospheric precipitation, decomposing the filter element, primary converters and a driver of control signals and control moreover, the electric fan is located between the site of protection against atmospheric precipitation and the delaying filter element, the decomposing filter element is located after filter-absorbent element, the primary converters connected to the control signal generator and control.  10. The device according to p. 9, characterized in that the site of protection against atmospheric precipitation contains a visor, a drain for water and an electromechanical element in the form of blinds fixed in the housing with the ability to make oscillatory movements or motionless.  11. The device according to p. 9, characterized in that one part of the primary converters is located on the housing, and the other part is on the filter elements.  12. The device according to p. 9, characterized in that the delaying filter element is made with antimicrobial impregnation.