RU2394600C1 - Air cleaning and rehabilitation system (versions) - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: invention refers to cleaning, ionisation and rehabilitation of air. Air cleaning and rehabilitation system includes air path in the form of tube with air cleaning and rehabilitation equipment located in it and including the fan, discharge electrodes, two tanks with water and biologically active substance, which are separated with permeable transverse partitions, shower nozzle, ultraviolet lamp, plate coated with manganese bioxide and high-voltage power supply. Permeable transverse partitions are provided with many through holes; at that, on two adjacent partitions the holes do not coincide at least by the value of the hole itself. In case the air near open reservoirs-fountains is subject to cleaning, the system includes discharge electrodes, high-voltage power supply, pump and coarse-mesh and chemical water treatment filter; at that, some part of inner surface along the perimeter of enclosure of the reservoir-fountain, which is elevated above surface of watery waste is made of the plates coated with manganese bioxide, and ultraviolet lamps are installed above the surface of water waste of reservoir-fountain.

EFFECT: invention allows increasing air cleaning and rehabilitation effectiveness at its being saturated with phytoncids and air ions.

5 cl, 2 dwg

Description

The invention relates to systems for air purification, ionization and sanitation of air, to ventilation equipment, to devices designed to create an air stream, purify it from suspended particles and gases, create controlled climatic conditions near open water bodies, mainly near fountains, to obtain a biologically active atmosphere, which affects the functioning of the human body: the respiratory, circulatory, nervous system, etc.

A known method of cleaning the air of industrial premises (RU 640741 according to class A61L 9/02 of 05/05/1979). The method involves the introduction into the air of a fragrant composition with neutralizing chemicals, which is introduced into the air together with the machine emulsion in an amount of 0.1-0.3 g per 1 liter of emulsion, while the neutralizing substances make up 10-45% by weight of the composition.

However, this method is only good in workshops with cutting machines using cooling emulsions.

A known method of ionization of air and gas (RU 2058510 according to CL F24F 3/16 from 04/20/1996). The method, which consists in exposing the air and gases to electric and thermal fields, involves supplying an electrode made of high resistance material with a filament voltage and heating it with a low voltage sinusoidal current to 400-1500 ° C, and then with a high voltage with an amplitude of 3-100 kV and a frequency of 10-1 MHz. A high voltage has the form of successively repeated pulses of the same polarity and amplitude with a slow rise and a sharp decline.

The disadvantage of this method is the low efficiency in terms of biologically active air quality and high energy intensity.

Known ion filter fan according to patent RU 2181466 by class. F24F3 / 16 of 11.23.2000. The fan-filter contains a corona negative electrode installed at the input and a non-corona and precipitation electrodes located behind it, enclosed in a housing and electrically connected to a high voltage source. The corona negative electrode is made in the form of a grid, in the nodes of which there are needles perpendicular to its plane, directed to a non-corona electrode made in the form of a grid of metal wire with a mesh size of 20 mm and installed at a distance of 35 mm from the needles, behind it there are precipitation electrodes made in the form of plates 170 mm long, located perpendicular to the non-corona electrode and parallel to each other at a distance of 18 mm, while the even and odd plates are electrically connected to each other.

The disadvantages of the described device include a low volumetric air flow rate and a low degree of air purification.

In the field of labor protection, a noise muffler is known, comprising a housing with end walls, an inlet and outlet pipe and a transfer chamber with exhaust openings, the intake pipe being installed on the side surface of the housing, partially located in the latter and connected to the transfer chamber (RU 1719669, class F01N 1/20 of March 23, 1990). This noise suppressor is equipped with an additional transfer chamber, which is made in the form of coaxially mounted shells with end walls, and the transfer chamber openings are made in the form of perforations on its end walls. An additional transfer chamber is equipped with an outlet located on its lateral surface from the side of the outlet pipe, and the end walls of the housing are made in the form of elastic membranes. The body is made of cylindrical shape with a round or oval cross-section. The end walls of the additional transfer chamber are made in the form of blind telescopic plates and are mounted with the possibility of axial movement. Between the end walls of the housing and the additional transfer chamber springs are installed, and the total living area of the perforation holes of the end walls of the transfer chamber is equal to the cross-sectional area of the inlet pipe. The elastic membranes of the end walls of the housing are made of sheet steel.

However, this silencer is complex in design and ineffective for indoor use.

Known electrostatic precipitator for air purification from aerosols and toxic gases (RU 2039608, class B03C 3/08, 3/14, 3/12 of 07/20/1995). This two-zone electrostatic precipitator contains an ionizer installed in series along the gas in the form of grounded parallel plates, between which there are corona electrodes, a precipitator consisting of a set of alternating potential and grounded parallel plates, and an electrostatic filter in the form of potential and grounded electrodes, in the space between which are the non-conductive filler. The potential and grounded electrodes of the electrostatic filter are made in the form of a set of alternating permeable and impermeable partitions installed across the direction of air movement in the electrostatic precipitator. Permeable partitions of the potential electrode are installed opposite the impermeable partitions of the grounded electrode, and the filler is made in the form of granules. The distance h between the potential and grounded electrodes of the electrostatic filter, the width of the permeable and the width β of the impermeable partitions satisfy the condition: h: α: β = 1.0-1.2: 1: 1.

However, in this electrostatic precipitator, the flow of air and gases is not cleaned efficiently enough.

The objective of the invention is to increase the degree of purification of air from suspended particles in it and improve it.

The technical result when using the invention is to increase the efficiency of purification and improvement of air by simple systems with air saturation by volatile and air ions.

The specified technical result is achieved by the fact that the system contains an air duct in the form of a pipe with air purification and air-conditioning equipment located in it, consisting of a fan, corona electrodes, which are a source of ions, a container with water and a biologically active substance that acts as a potential precipitation electrode, and power supply. Air is cleaned and recuperated in rooms in which living plants of the same species or in a combination of species are placed on walls and partitions. The equipment located in the air duct additionally contains permeable transverse partitions made with many through-holes, moreover, at two adjacent distillations the openings do not match at least the size of the opening itself, a shower nozzle for passing water jets through it in the form of an artificial waterfall, an ultraviolet lamp and a plate coated with manganese dioxide. The power supply is made high-voltage, at least two containers with water and biologically active substance are sequentially installed in the air duct after the fan and the corona electrodes, separated by at least two specified permeable transverse partitions.

An ultraviolet lamp and a plate coated with manganese dioxide are installed after the shower head, but before the air stream exits through the second corona electrodes in the room. An air duct with equipment is installed in the room with the ability to ensure the direction of the air flow coming from it to live plants placed on the walls and partitions. The airway body is equipped with opening hatches with hermetic covers for installation, repair and replacement of equipment in it.

In the second embodiment, the system for cleaning and improving air near open reservoirs-fountains contains equipment consisting of corona elements that are a source of ions, precipitation electrodes, the role of which is played by water, and a power supply. Around open fountain ponds, planted plants of one species or a combination of species, corona electrodes are made in the form of a plurality of needle electrodes placed in plants, the role of precipitation electrodes is played by the water of the fountain pond. The system additionally contains ultraviolet lamps, plates coated with manganese dioxide, a pump and a filter for rough and chemical treatment of water. The power supply is made high-voltage, part of the inner surface along the perimeter of the fountain of the reservoir-fountain, towering above the surface of the water surface, is made of plates coated with manganese dioxide. Ultraviolet lamps are also installed above the surface of the water surface of the fountain. Along the entire closed perimeter of the pond-fountain fence, living plants of the same species or in combination of species are additionally placed with the possibility of installing corona electrodes on them, which are a source of ions made in the form of many electrodes.

Figure 1 is schematically depicted for cleaning and improving air in rooms, and figure 2 is the same for open reservoirs such as fountains.

The system in figure 1 consists of an air duct 1, with hermetically sealed hatches 2. At the outlet of the duct 1, a fan 3 is installed, followed by corona electrodes 4. Next, 2 containers 5 and 6 with water and a biologically active substance, separated by permeable materials, are installed transverse partitions 7 and 8 into two zones. Above containers 5 and 6, high-voltage power supplies are installed 9. In the air duct 1, after the air leaves the second container 6, an artificial waterfall is arranged using a shower head 10 and water pipes 11. An ultraviolet lamp 12 and a plate 13 coated with manganese dioxide are located behind the waterfall. The airway ends with the corona electrodes 14.

In the second embodiment, figure 2 shows a simplified fountain with equipment for cleaning and improving atmospheric air. The equipment consists of a pump 15, a coarse and chemical filter 16, a compressor 18 and ultraviolet lamps 19 mounted above the water surface in the fountain. On the inner lining of the fountain there are plates 20 coated with manganese dioxide. Along the closed perimeter of the fence 21 of the fountain and around live plants 22 with corona electrodes 23 are placed in the form of needle pins, powered by a high-voltage unit 24.

The system for cleaning and air conditioning works as follows.

In the first embodiment, mainly in rooms, air is supplied by a fan 3 to the air duct 1 and, passing through the corona electrodes 4, is first saturated with biologically active substances from the tank 5, then from the partitions 7 and 8. After the tank 6 in the second zone, the air passes through sprays artificial waterfall from the shower head 10, where heavy particles settle on the water. Bypassing the section of the air duct 1, where the ultraviolet lamp 12 and the plate 13 are installed, the air is saturated with oxygen and through the corona electrodes 14 the air stream enters the room clean and healthy. In addition, its flow is directed to living plants in the room, located on the walls and partitions. This also improves indoor air quality.

In the second embodiment, the air near open reservoirs-fountains is also cleaned and improved with the help of living plants 22 and an equipment system: pump 15, filter 16, rough and chemical cleaning and compressor 18 creating geyser sprays. The atmosphere is saturated with oxygen due to ultraviolet lamps 19 and plates 20 coated with metal oxides installed along the inner perimeter of the fence 21. Corona electrodes 23 in the form of a plurality of needle pins located along living plants 22, with the help of a high-voltage power supply 24, additionally contribute to the improvement of atmospheric air.

Claims (5)

1. An air purification and air conditioning system containing an air duct in the form of a pipe with air purification and air conditioning equipment located in it, consisting of a fan, corona electrodes, which are a source of ions, a container with water and a biologically active substance, which act as a potential precipitation electrode, and a power unit, characterized in that the air is cleaned and recuperated in rooms in which living plants of the same species or in a combination of species are placed on walls and partitions, The food located in the air duct additionally contains permeable transverse partitions made with many through-holes, moreover, on two adjacent partitions the openings do not match at least the size of the opening itself, a shower nozzle for passing water jets through it in the form of an artificial waterfall, an ultraviolet lamp and a plate covered with manganese dioxide, and the power supply is made high-voltage in the air duct after the fan and the corona electrodes in series At least two containers with water and a biologically active substance are renewed, separated by at least two indicated permeable transverse partitions, and an ultraviolet lamp and a plate coated with manganese dioxide are installed after the shower nozzle, but before the airflow leaves second corona electrodes to the room. 2. The system according to claim 1, characterized in that the airway with equipment for cleaning and improving air is installed in the room with the ability to ensure the direction of the outgoing air flow to living plants placed on the walls and partitions. 3. The system according to claim 1, characterized in that the housing of the airway is equipped with opening hatches with airtight covers for installation, repair and replacement of equipment in it. 4. A system for cleaning and improving air, containing equipment for cleaning and improving air, consisting of corona electrodes, which are a source of ions, precipitation electrodes, the role of which is played by water, and a power supply unit, characterized in that the air is cleaned near open reservoirs-fountains, the system further comprises ultraviolet lamps, plates coated with manganese dioxide, a pump and a filter for coarse and chemical treatment of water, the power supply being made high-voltage, part of the internal ited on the perimeter fence-fountain pond rises above the surface of the water surface, made of plates coated with manganese dioxide, and the ultraviolet lamps are mounted above the water surface, the surface of the fountain reservoir. 5. The system according to claim 4, characterized in that living plants of the same species or in a combination of species with the possibility of installing corona electrodes on them, which are a source of ions made in the form of multiple needle electrodes, are additionally placed around the entire closed perimeter of the fountain reservoir.

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