RU2630446C2 - Air purifier - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: air purifier comprises a housing consisting of a rectangular box provided with rotating legs with wheels, a removable tray with a drain connector, a removable distribution grid, a rear pyramidal cover with an adjusting recess, a fan, a dash device, a cleaning chamber consisting of perforated cassettes, the ends of which are equipped with front and rear turn signals and are connected by fixed and movable struts, with the formation of air channels between the perforated cassettes. The perforated cassettes are filled with pumice granules made of metallurgical slag with a basicity module M>1, the turn signals are a pair of ears attached perpendicular to the ends of the perforated cassettes, with holes through which a freely rotating roller is rigidly connected to the front fixed and rear movable struts, To the right rear movable rack perpendicularly rigidly connected to it is an adjusting lever of rectangular cross section, which is connected to the outlet end through threaded soybean Inonu with a tip.

EFFECT: simplification of the design of the rinsing device, ensuring the possibility of operating a room air purifier in residential and industrial premises, which increases the economic and environmental efficiency of the air cleaner.

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Description

The present invention relates to energy, and in particular to air conditioning and, in particular, to devices for cleaning indoor air from harmful components (for example, CO ₂ and water vapor) released by the respiration of people and animals, as well as industrial pollution.

A conditioner is known, comprising a flow-through casing with heat exchangers successively arranged along the air, communicated through a confuser section with an inlet of a centrifugal fan, the outlet of which is connected to the room through a diffuser section, and the conditioner is provided with a recirculation air duct with an axial fan tangential to the diffuser section [ RF patent No. 1572150, F24F1 / 00, 2006].

The main disadvantage of the known device is the inability to clean the internal air of harmful components (for example, CO ₂ and water vapor) released during the breathing of people and animals, as well as industrial pollution, which reduces the environmental efficiency of the air conditioner.

Closer to the proposed invention is a mobile outdoor air conditioner comprising a rectangular case, covered by a roof, a pan equipped with a supply and drain fittings and divided into an irrigation chamber and a cleaning chamber, intake and distribution grilles, supply and exhaust fans, an ionizer, an irrigation device, consisting of riser with nozzles, connected through the feed fitting to the feed pump, a flushing device consisting of a riser with bottom perforated nozzles passing through a partition into the cleaning chamber, in which removable perforated baskets (cartridges) are filled on the supporting corners in a checkerboard pattern along the air flow, filled with granules of pumice made of metallurgical slag with a basicity module M> 1 with a diameter of 20 to 40 mm, closed on the side of the cleaning chamber a vertical door, and the outer wall of the irrigation chamber in the lower part of the side wall of the housing is equipped with an intake pipe closed by a grill, inside which there is a supply fan, the outer wall of the cleaning chamber in the lower part the casing wall of the casing is equipped with an exhaust pipe closed by a grill, inside of which there is an air ionizer and an exhaust fan connected to the supply nozzle, the feed pipe with feed and flush valves is connected to the irrigation device, consisting of an irrigation riser with branches equipped with nozzles, the flush device is connected to the feed the pipeline from the opposite side and is a flushing riser with branches connected to perforated bottom tubes, and the chassis pallet is mounted on a mobile platform [RF Patent No. 2550328, IPC F24F 3/16, 2015].

The main disadvantages of the known mobile outdoor air conditioner are the complex and cumbersome design of irrigation and flushing devices and the inability to use it in residential and industrial premises, which reduces its economic and environmental efficiency.

The technical result, the solution of which the present invention is directed, is to simplify the design of the washing device, providing the possibility of operation of the indoor air purifier in residential and industrial premises, which increases the economic and environmental efficiency of the air purifier.

The air purifier contains a housing consisting of a rectangular box equipped with rotating legs with wheels, a removable tray with a drain fitting, a removable distribution grill, a rear pyramidal cover, in the upper right corner of which there is an adjustment niche, and in the center there is a fan, the suction side of which is closed by a fence moreover, inside the housing there is a cleaning chamber, consisting of perforated cassettes located one above the other, the ends of which are provided with front and rear rotations tniks and are interconnected through the front turn signals with two front fixed racks rigidly connected to the top and bottom of the front end of the rectangular box, and through the rear turn signals with two rear movable racks with the formation of air channels between the perforated cassettes, while the perforated cassettes are filled with pumice granules made from metallurgical slag with a basicity module M> 1, the front and rear turn signals have the same design, which is a pair of ears attached perpendicular to the ends of the perforated cassettes, with holes through which a freely rotating roller is passed rigidly connected to the front fixed and rear movable struts, to the right rear movable strut perpendicular to it, a rectangular adjustment lever is rigidly connected, which is passed through the slot of the adjustment slot located in the adjustment niche, the rectangular hole of the movable strip covering the adjustment gap, the elastic element and is connected by the outlet end through a threaded union with a tip, and for flushing in the granular pumice air cleaner included dushiruyuschee device.

The invention is illustrated in the drawing, where in FIG. 1, 2 shows a general view and section of an air cleaner (BO), FIG. 3–6 - node B and its sections.

VO contains a housing 1, consisting of a rectangular box 2, equipped with rotating legs 3 with wheels 4, a removable tray 5 with a drain fitting 6, a removable distribution grill 7, a rear pyramidal cover 8, in the upper right corner of which an adjustment niche 9 is arranged, and in the center a fan 10 is located, the suction side of which is closed by the intake grill 11. Inside the housing 1 there is a cleaning chamber 12, consisting of perforated cassettes 13 located one above the other, the ends of which are equipped with front and rear turn signals and 14 and 15, respectively, and are interconnected through the front turn signals 14 with two front fixed posts 16, rigidly connected to the top and bottom of the front end of the rectangular box 2 and through the rear turn signals 15 with two rear movable posts 17 with the formation of air channels between the cassettes 13 18. At the same time, the perforated cassettes 13 are filled with granules of pumice 19 made of metallurgical slags with a basicity module M> 1, the front and rear turn signals 14 and 15 have the same design, which is a pair of ears to 20, attached perpendicularly to the ends of the perforated cassettes 13, with holes 21 through which a freely rotating roller 22 is passed, rigidly connected to the front fixed struts 16 and the rear movable racks 17, to the right rear movable strut 17 perpendicular to it, the adjustment lever is rigidly attached 23 of rectangular cross-section, which is passed through the slot 24 of the adjustment slot 25 located in the adjustment niche 7, the rectangular hole 26 of the movable strip 27 covering the adjustment gap 25, an elastic element nt 28 and the output end connected through a threaded connection (FIG. 1–6) with a tip 29, and for washing the granulated pumice 19, the BO kit includes a scenting device 30.

The work of the proposed HE is based on the chemical composition of air in residential and industrial premises, determined by the components released during the breathing of people and animals (for example, СО ₂ and water vapor), or the nature of the production (eg, СО, NO _х and SO _х ), high solubility of carbon dioxide in comparison with other components of air in water [Handbook of a chemist, vol. III. - M. – L .: Chemistry, 1965, p. 316], a high rate of oxidation of NO to NO ₂ and SO ₂ to SO ₃ , which dissolve well in water with the formation of HNO ₃ and H ₂ SO ₄ , in the presence of ozone [K. Nenitsesku. General chemistry. - M .: Higher. School, 1958, p. 275; Kutepov A.M. and other General chemical technology.- M .: Higher. School, 1985, p. 348], the high value of the basicity modulus of the granules of metallurgical pumice, which gives them the basic properties [Building materials. Directory. Ed. Boldyreva A.S. et al. - M.: Stroyizd., 1989, p. 423; Domokeev A.K. Construction Materials. - M .: Higher. School, 1989, p. 163], allowing sorbing on their surface substances with acidic properties, which include the above harmful components.

The room air is cleaned of harmful components (CO ₂ , CO, NO _x , SO _x , water vapor) and dust by VO, depending on the nature of the hazards and the possibility of water supply in two ways: dry (in the absence of constant irrigation of perforated cartridges 13) and wet ( with constant irrigation of water cartridges 13).

The first method is used mainly for air purification of residential premises. VO is installed in the room so that its back side is facing the source of pollution, connect it to the electrical network and turn on the fan 10. The level of cleaning and the load on the fan motor 10 are controlled by changing the angle of rotation of the perforated cassettes 13 by moving the adjusting lever 23 to slots 24 of the adjustment slot 25.

The air of the room through the grate 11 is sucked in by the fan 12 into the irrigation chamber 8, where it moves along the inclined channels 18 and from where it enters through openings in the perforated cassettes 13, filled with pumice granules 19 with a diameter of 10 to 20 mm, made from basic metallurgical slags (granule diameter 19 assigned from the conditions for ensuring minimum aerodynamic drag of the cleaning chamber 12 and the nomenclature of the sizes of granules of metallurgical pumice). The main metallurgical pumice is a material with a highly porous mechanically strong structure (compressive strength up to 2.7 MPa), consisting of calcium oxide, silicon oxide, alumina and partially magnesium oxide (CaO, SiO₂Al₂O₃, MnO) with the basic modulus M> 1. High value of the basicity modulus gives granules 19 basic properties that allow sorbing on their surface substances with acidic properties, which include many harmful impurities in indoor air (CO₂, NO_xSO_x, СО,). In addition, based on its composition, metallurgical slags are resistant to the corrosive effects of acidic components of polluted air, are widely available and relatively cheap. The nitrogen and sulfur oxides adsorbed from the air in the pores of granules 19 have increased reactivity due to their interaction with the surface of the adsorbent – granules of slag pumice [Nenitsesku K. General chemistry - M .: Mir, 1968, p. 298], therefore, they are oxidized by oxygen at a rate greater than in the gas phase with the formation of NO readily soluble in water₂ and SO₃, which, in turn, interact with particles of acidified water remaining in the pores of the granules 19, with the formation of the corresponding acids HNO₃ and H₂SO_four. In addition, finely dispersed particles (dust, soot, etc.) settle on the surface and in the pores of the granules 19. As a result, the air entering after the HE is cleaned of a significant part of the above harmful components and the environmental characteristics of the air in the room are significantly improved.

When the activity of the pumice granules 19 in the perforated cassettes 13 decreases, they are subjected to regeneration, which is carried out during hours of minimal air pollution (for example, at night). The regeneration process consists in washing the granules 19 from dust particles, soot and acidic water containing trapped oxides of carbon, sulfur and nitrogen. Rinsing is carried out by supplying tap water to the cleaning chamber 12 through a scrubbing device 30 with the distribution grid 7 removed. Dirty water from the pan 5 through the nozzle 6 is drained into the sewer (if it is not possible to connect to the sewer, the pan 5 is disconnected from the housing 1 and the dirty water is drained from the pan) . The amount of flushing water and the flushing time are determined empirically. Complete replacement of the pumice granules 19 is carried out depending on the indicators of their mechanical strength and adsorption activity.

The second method of cleaning is used mainly for industrial premises in the presence of a wide range of contaminants and the possibility of constant water supply and connection to the sewage system. IN is connected to the electric network, the choking device 30 is connected to a water supply source, the nozzle 6 is connected to the sewer, after which the distribution grid 7 is removed, the fan 10 is turned on and water is supplied to the choking device 30.

Note The water consumption for irrigation should be such that there is no filling of the pores of the granulated slag 19 with moisture and is determined empirically.

The air of the room through the grill 11 is sucked in by the fan 10 into the irrigation chamber 8, where it moves along the inclined channels 18, while being irrigated with water coming from the scrubbing device 30 to the cassettes 13, the amount of which is determined by a given amount of harmful components absorbed from the room air and its moisture content. In parallel with the processes described above, in the cleaning chamber 12, dust and soot particles are trapped by water, interfacial contact of the sprayed water with air, as a result of which carbon dioxide (СО ₂ ) is absorbed by this water, chemical interaction of nitrogen oxides (NO _x ), sulfur oxides (SO _x ), ozone (O ₃ ), oxygen (O ₂ ), water (H ₂ O), carbon monoxide (CO) with each other in the gas and liquid phases, chemisorption of the resulting nitrogen dioxide (NO ₂ ) and sulfuric anhydride (SO ₃ ) water to form nitric (HNO ₃ ) and sulfuric (H ₂ SO ₄ ) acids. The resulting acidified water saturated with carbon dioxide with mechanical impurities flows into the sump 5 and, together with the sludge, is discharged through the nozzle 6 into the sewer. Purified from carbon dioxide, nitrogen and sulfur oxides, dust and soot, moistened and partially cooled air from the purification chamber 12 through the distribution grid 7, upon contact with which it is freed from entrained particles of water, enters the room.

In this case, acidified water discharged into the sewer through the nozzle 6, due to the significant content of carbon dioxide in it, will contribute to the processes of photosynthesis [Komov V.P. et al. Biochemistry. - M.: Bustard, 2004, p. 210] in the fields of irrigation of urban wastewater treatment plants.

The cross-sectional area, number and volume of perforated cassettes 13, porosity, size and number of pumice granules 19, power and capacity of the fan 10, volume of the pan 5, absorption capacity of the cleaning chamber 12, water consumption for irrigation are determined by air productivity, its pollution and its required degree cleaning up.

Thus, the proposed air purifier allows without the use of expensive and hazardous chemicals to clean the air of residential and industrial premises from harmful components, simplify its design and operation, and quickly move the room air purifier itself to the places of maximum pollution, which increases its economic and environmental efficiency.

Claims (1)

An air cleaner containing a rectangular housing, a pan equipped with a drainage fitting and wheels, a cleaning chamber with cassettes located one above the other with air channels between them and filled with pumice granules made of metallurgical slag with a basicity module M> 1, intake and distribution grilles, a back cover with a supply fan, a sprinkler, characterized in that the housing is equipped with rotating legs with wheels, a removable tray, a removable distribution grill, in the rear pyramidal cover the adjustment niche is arranged, the ends of the perforated cassettes in the cleaning chamber are equipped with front and rear turn signals and are interconnected through the front turn signals with two front fixed racks rigidly connected to the top and bottom of the front end of the rectangular box, and through the rear turn signals with two rear movable racks, all the turn signals have the same design, representing a pair of ears attached perpendicularly to the ends of the perforated cassettes, with holes through which are freely passed in a expanding roller, rigidly connected to the front fixed and rear movable racks, to the right rear movable strut perpendicular to it is a rectangular adjustment lever, which is passed through the slot of the adjustment slot located in the adjustment niche, the rectangular opening of the movable strip covering the adjustment gap, elastic element and is connected by the outlet end through a threaded connection to the tip, and the sprinkler is made in the form of a choking device.

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