RU2329904C2 - Air purification ecosyste - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: ecosystem housing (1) with inlet and outlet openings (2, 3) incorporates electric motor (4), fan (5) coupled with shaft (6), electric motors (4), air purification units (7) with filtration-purification elements (8). Ecosystem housing (1) is separated by two crosswise partitions (9, 10) into three parts, the central of which accommodates electric motor (4) with fan (5), the other two accommodating, at their extreme parts, air purification units (7) with the filtration-purification elements (8). Air purification units (7) are detachable and are made up of two parts (13, 14). First part (13) contains the filtration element. Second part (14) includes an absorbing element and is made from a casing enveloping the housing filtration-purification elements (8) with gas-permeable inlet and outlet walls(15). First part (13) of air purification unit (7) is pressed against one of the crosswise partitions (9, 10) of ecosystem housing (1) via second part (14) of air purification unit (7) by means of pressing device (16). Additional sealing gaskets (17) are arranged between two parts (13, 14) of air purification unit (7) and second part (14) of air purification unit (7), and one of the crosswise partitions (9, 10) of ecosystem housing (1) along the periphery of the said housings.

EFFECT: high-efficiency air purification, compact design, simpler assembly and maintenance of ecosystem.

3 cl, 2 dwg

Description

The invention relates to mechanical engineering, namely to air purification plants, and can be used for air purification in salons (cabins) and inhabited compartments of cars, trucks, road construction equipment, trams, trolleybuses and other equipment, especially in cities, industrial facilities, mining, as well as in the premises of domestic and industrial purposes.

A known system of air purification in the cabs of vehicles, comprising a housing with inlet and outlet windows, an air blower, an electric motor, an air purification unit with filter elements from dust and hydrocarbons / 1 /. However, the known air purification system is structurally complex, has a large weight and dimensions, does not clean the air of carbon monoxide and nitrogen oxides, odor and other harmful substances, consumes a lot of energy on its drive, has a high cost and complexity in maintenance and operation, and for these reasons not found widespread mass use in civilian vehicles.

A known air purification system comprising a housing with inlet and outlet windows, an electric motor, a fan interlocked with an electric motor shaft, an air purification unit with a filter-cleaning element / 2 /. Using the known system, air is cleaned in the cabs of vehicles. However, the known air purification system is not intended to purify air of gaseous harmful substances (carbon monoxide, nitrogen oxides, hydrocarbons (including acrolein, formaldehyde and other harmful substances), it is notable for its complex construction, more laborious operation and maintenance, it has high consumption of operational materials, short resource of work, and for these reasons, it also did not find wide industrial application.

Also known is an air purification system comprising a housing with inlet and outlet windows, an electric motor, a fan interlocked with an electric motor shaft, at least one air purification unit with a filter-cleaning element, the housing of which is divided by a transverse partition with at least one hole, and the unit purification contains at least two filter-cleaning element / 3 /. This system is a prototype of the present invention. It has a high efficiency of air purification from harmful substances, lower weight and dimensions and is more structurally simpler (in comparison with other analogues). But it also has drawbacks, the main of which are insufficient compactness (based on a combination of the following parameters - performance of the cleaned air, dimensions and weight), insufficient tightness of internal flow elements (fastening of the air cleaning unit in the housing, fan), insufficiently accurate alignment of the cleaning unit in the housing - all this leads to air leakage into the cleaned air flow and reduces the efficiency of the ecosystem. The disadvantages of the prototype are also not optimized parameters for gas-dynamic resistance of the air purification unit and the pressure of the fan, the performance of the fan for the air being cleaned in the system.

The objective of the invention is to increase the efficiency of air purification, optimize its main parameters (gas-dynamic resistance of the air purification unit, pressure and fan performance), increase the compactness of the design, as well as simplify the assembly and maintenance of the cleaning system during production and operation, and the tightness of the main elements.

The task is realized in that in an air purification ecosystem comprising a housing with inlet and outlet windows, an electric motor, a fan interlocked with an electric motor shaft, at least one air purification unit with a filter-cleaning element, the housing of which is separated by a transverse partition with at least one hole, and the cleaning unit contains at least two filtering and cleaning elements, a second transverse partition with at least one hole dividing in Naturally, with the first partition, the casing is in three parts, in the middle of which there is an electric motor with a fan, and in the two extreme parts there are air purification units with filtering and cleaning elements, and the fan is made pressure head, for example, in the form of a radial wheel with blades, covered on both sides snails with central holes, and at least one cleaning unit is made collapsible, consisting of two parts, the first of which in the direction of flow of the cleaned air contains at least a filter an element made, for example, of corrugated filter paper, and the second part contains a sorbent element and / or an absorber and / or a low-temperature catalyst and is made of a housing enclosing filtering and cleaning elements with gas-permeable inlet and outlet walls frontal with respect to the direction of flow cleaned air, and the first part of the cleaning unit is pressed against the transverse partition of the housing through the second part of the block using a clamping device, made, for example, in the form of an elastic Single or screw connections and the two parts of the air treatment unit and between the second part of the cleaning unit and the housing wall along the perimeter of housings has additional sealing gaskets, made for example of a rubberized material or polyurethane foam.

In the air purification ecosystem, the gas-dynamic resistance of at least one air-purifying unit is in the range from 20 to 700 Pa, the fan pressure is greater than the gas-dynamic resistance of the air-purifying unit by at least 10 Pa, and the fan capacity for the air being cleaned in the ecosystem is at least 10 m ³ / hour.

In addition, in the air purification ecosystem, between the body of the ecosystem and the cleaning unit in the area where the second part of the cleaning unit is located, guides are made, for example, in the form of ribs attached to the inner walls of the ecosystem body.

The essence of the proposal is illustrated by drawings, where in Fig. 1 a longitudinal section of the ecosystem is given, and in Fig. 2 is a view along section AA in Fig. 1.

The air purification ecosystem consists of a housing 1 with input 2 and output 3 windows, an electric motor 4, a fan 5, the latter being interlocked with a shaft 6 of an electric motor 4. Air purification units 7 are installed in the ecosystem housing 1, inside of which filtering and cleaning elements are located 8. The housing 1 is divided by two transverse partitions 9 and 10 into three parts. The ecosystem fan 5 is made as a pressure head in the form of a radial wheel with blades and is covered on both sides by snails 11 (see Figs. 1 and 2) with central holes 12. The cleaning units 7 are dismountable, consisting of two parts - the first 13 and second 14, the first 13 of which (in the direction of flow of the cleaned air) contain a filter element from dust and other harmful substances (soot particles, plant pollen and other particles and drops) made of corrugated filter paper, and the second part 14 contains elements 8 separated outside and interconnected by gas-permeable walls 15. Elements 8 may contain sorbent material (coal and its modifications), an absorber, and a low-temperature catalyst in the form of possible applications both in separate and joint form.

In this case, the first part 13 of the cleaning unit 7 is pressed against the transverse partition (9 or 10) of the housing 1 through the second part 14 of the cleaning unit 7 using the pressure device 16, and between the two parts 13 and 14 of the cleaning unit 7 and between the second part 14 and the partition ( 9 or 10) of the housing 1 around the perimeter of the buildings 1 and 7 are additional sealed gaskets 17, made, for example, of rubberized material or polyurethane foam.

Between the housing 1 of the ecosystem and the cleaning unit 7 in the area of the second part 14 of the cleaning unit 7, guides 18 are installed (Fig. 1), made, for example, in the form of longitudinal ribs attached to the inner walls of the ecosystem 1.

The switch 1 also houses a switch 19 and a pressure sensor or gas analyzer 20, or a combined sensor that measures the pressure and concentration of several harmful substances after air purification in blocks 7.

In the ecosystem, the gas-dynamic resistance of at least one air purification unit 7 must be in the range from 20 to 700 Pa, the pressure of the fan 5 must be no less than 10 Pa higher than the gas-dynamic resistance of the air purification unit 7, and the fan 5 air capacity for the air being cleaned in the ecosystem must be at least 10 m ³ / hour.

The air purification ecosystem works as follows.

When the switch 20 is turned on, the electric motor 4 starts to rotate the fan 5 and the air from the passenger compartment (cabin) of the vehicle, or the mechanism, or the room — then the passenger compartment, or the outside air in relation to the passenger compartment enters through the inlet window 2, the gas permeable wall 15 into the cleaning unit 7. In the latter, passing sequentially through the first 13 and second 14 of its parts, the air is cleaned of dust and other harmful substances in the solid and liquid phases (using corrugated filter paper), from unburned and other hydrocarbons (including poly of aromatic hydrocarbons, carcinogens, acrolein, formaldehyde and other harmful substances, including toxic substances) on the sorbing element 8 (granules of coal and / or its modifications), from nitrogen oxides on the element 8 from the absorber (for example, potassium permanganate), from oxide carbon on a low temperature catalyst (e.g., palladium and / or its oxides supported on a carrier). A set of cleaning elements 8 in the cleaning unit 7 can be selected in various combinations, depending on what harmful substances are to be cleaned in the air of the cabin.

Next, the purified air from the cleaning unit 7 through the holes in the partitions 9 and 10 and through the central holes 12 of the coils and 11 enters the blades of the fan 5 and from the latter through the outlet window 3 is fed into the cabin.

With the help of an ecosystem, the air in the cabin can be cleaned both when supply (outside) air is supplied to the cabin and in the recirculation mode (i.e. air is taken from the cabin, cleaned in the ecosystem and the cleaned is returned back to the cabin), as well as while cleaning both supply and recycled air in various proportions. Depending on the ecosystem’s operation scheme and the design of filtering and cleaning elements 8 in the cleaning units 7 (constructive and selection of materials), the cleaning efficiency for each harmful substance can be brought up to almost 100%.

Separation of the ecosystem body 1 using two partitions 9 and 10 with openings into three parts, of which the electric motor 4 and fan 5 are located in the middle, and the cleaning units 7 are located in the two extreme ones (air is pumped through two cleaning blocks 7 using one fan 5) allows you to achieve the maximum possible compactness of the device. At the same time, pressing the first parts 13 of the cleaning units 7 to the transverse partitions 9 and 10 of the housing 1 through the second parts 13 of the cleaning units 7 using clamping devices 16 also allows for maximum compactness of the device, ease of installation and disassembly, the possibility of separate replacement of the first 13 and second 14 parts of blocks 7 in operation, which ensures the realization of the maximum possible life of each of the parts 13 and 14 of the cleaning units 7. In turn, the clamping device 16 itself can be made in the form of an elastic lock or in the form of a screw or other connection, and the placement between both parts 13 and 14, as well as between the second parts 14 of the cleaning units 7 and the partitions 9 and 10 of additional sealed gaskets 17 can reliably eliminate the possibility of raw air overflows in the area of the cleaning units 7, thereby increasing ecosystem performance.

Also, the execution of the fan 5 by pressure by choosing its radial design and increasing the revolutions of the shaft 6 of the electric motor 4 makes it possible to pump cleaned air through a considerable thickness of the elements 8 in the cleaning units 7 (thereby realizing the high efficiency of air cleaning for each harmful component) with gas-dynamic resistance of the cleaning units from 20 to 700 Pa, which may occur in practice. The same techniques make it possible to realize a fan head no less than 10 Pa higher than the gasdynamic resistance of the cleaning units 7. Realization of these parameters in the indicated ranges also leads to the achievement of maximum compactness of the device, simplification of its design at the same time as high efficiency of air cleaning and installation performance by the flow rate of cleaned air, which should be at least 10 m ³ / hour for a given ecosystem design with a cabin volume of more than 2 m ³ .

The achievement of the objectives in the proposed ecosystem design is also facilitated by the placement of snails 11 with central holes 12 on both sides of the radial fan wheel 5, thereby increasing the efficiency of the latter and reducing energy consumption for its drive.

Finally, the placement of longitudinal guides 18 on the inside of the housing 1 in the area of the second parts 14 of the cleaning units 7 facilitates ecosystem maintenance, improves the reliability of assembly and alignment of the units 7 in the housing 1, which is also aimed at achieving the objectives.

Inside the housing 1 of the ecosystem, it is planned to place a pressure sensor 20 or a gas analyzer to exclude the driver of the car from being distracted by managing the ecosystem by automating the process of turning the ecosystem on and off and its operating modes using electronic control systems based on the signals from the sensor 20.

The proposed ecosystem of air purification is universal, can be performed in various modifications for use both in the salons (cabins) of vehicles, as well as construction and road, special career equipment, in cabins of industrial mechanisms, for example, various types of cranes, as well as for indoor air purification domestic and industrial purposes in the purification regimes of the supply and recirculated air and with the combined use of these modes.

Information sources

1. P.D. Laryushin. Climate control system in the cabin. “Truck”, No. 1, 1996, p. 40, Fig. 6.

2. Copyright certificate SU No. 1233915 A1. Dust removal device. B01D 45/12, B60H 3/06. Publ. 06/30/86., Bull. No. 20.

3. RF patent PU No. 2173639 C1. Air purification system. 7 B60H 3/06, F24F 3/16. Publ. 09/20/2001, Bull.№26.

Claims (3)

1. An air purification ecosystem containing an ecosystem body with input and output windows, an electric motor, a fan interlocked with an electric motor shaft, at least one air purification unit with a filter-cleaning element, the ecosystem body is separated by a transverse partition with at least one opening, and the air purification unit contains at least two filtering and cleaning elements, characterized in that a second transverse partition with at least one opening is additionally placed inside the ecosystem body it, dividing the ecosystem case together with the first transverse partition into three parts, in the middle of which there is an electric motor with a fan, and in the two extreme parts there are air purification units with filtering and cleaning elements, and the fan is made pressure, for example, in the form of a radial wheel with blades, covered on both sides by snails with central holes, and at least one air purification unit is made collapsible, consisting of two parts, the first of which in the direction of flow of the cleaned The air contains at least a filter element made, for example, of corrugated filter paper, and the second part contains a sorbing element and / or an absorber, and / or a low-temperature catalyst and is made of a housing enclosing filtering and cleaning elements with frontal gas-permeable inlet and outlet walls in relation to the direction of movement of the stream of cleaned air, and the first part of the air purification unit is pressed against one of the transverse partitions of the ecosystem body through the second part of the unit air sources with the help of a clamping device, made, for example, in the form of an elastic lock or screw connection, and between the two parts of the air purification unit and between the second part of the air purification unit and one of the transverse partitions of the ecosystem casing, additional sealed gaskets are made around , for example, made of rubberized material or polyurethane foam. 2. The air purification ecosystem according to claim 1, characterized in that the gasdynamic resistance of at least one air purification unit is in the range from 20 to 700 Pa, the fan head is greater than the gasdynamic resistance of the air purification unit by at least 10 Pa, and the fan performance for air cleared in the ecosystem is at least 10 m ³ / h. 3. The air purification ecosystem according to claim 1, characterized in that between the body of the ecosystem and the air purification unit in the area where the second part of the air purification unit is located, guides are made, for example, in the form of ribs attached to the inner walls of the ecosystem body.

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