DE202020106917U1 - Air purifier - Google Patents

Abstract

Air cleaning device with a motor, at least one air inlet opening (14, 15) and at least one air outlet opening (16) as well as a tubular air filter (13), characterized in that the motor exclusively drives the air filter (13) to rotate about its longitudinal axis, so that longitudinally axially Air flowing into the air filter interior flows out radially through the air filter (13).

Description

The invention relates to an air cleaning device with a motor, at least one air inlet opening and at least one air outlet opening and a tubular air filter.

Air purification is used to filter out suspended particles contained in the air. These particles can either be the finest solid particles such as dust, pollen or the like, or aerosols that contain viruses or bacteria from which humans should be protected. Possible mouth and nose covers filter out only up to 80% of the suspended particles or aerosols, so that there is a high risk of infection in rooms where many people are present, despite the use of mouth and nose covers. Measures such as frequent burst ventilation are suitable for minimizing the proportion of pollutants in the air, but these measures are often not sufficient. In addition, when the outside temperature is low, every ventilation is associated with a loss of heat.

The air cleaning devices known from the prior art consistently use a fan which draws air into the air inlet opening and conveys it through a filter before the cleaned air is returned to the room through an air outlet opening. Depending on the required degree of cleaning, single or multi-stage filtration systems are used, for example in such a way that dust, pollen, animal hair is absorbed in a first filter stage, odors are absorbed in a second stage by means of an activated carbon filter and particles of 0.3 µm are filtered out in a so-called HEPA filter become. The blower, which mostly consists of motor-driven turbine blades, often causes annoying noises that can only be minimized to a small extent by soundproofing measures, with soundproofing measures often obstructing the air flow to be passed through the filter, which worsens the effectiveness of the air cleaning device.

It is the object of the present invention to create an air cleaning device which is of simple construction and operates with as little noise and trouble-free as possible.

To solve this problem, it is proposed that the motor exclusively drives the air filter to rotate about its longitudinal axis, so that air flowing axially into the air filter interior flows out radially outward through the air filter.

Such a flow guide is known in principle in so-called radial fans, but these have the disadvantage that a fan is used for air intake and air ejection.

Surprisingly, it has been shown that a rotating tubular filter has sufficient suction power to suck in the air, drive it through the filter fabric and radially expel it again as purified air. The suction effect is speed-dependent and can be increased by increasing the speed.

The particular advantage of this air cleaning device is that a conventional fan can be completely dispensed with, which considerably simplifies the construction of the apparatus. In addition, the omission of a fan saves material, which has a positive effect not only in terms of costs but also in terms of weight. The device according to the invention works practically without wear. If the filter is gradually clogged more and more by suspended particles as it is used, its functionality can be quickly restored by cleaning the filter, if possible, or by replacing the filter. In principle, all tubular air filters known from the prior art can be used, preferably lamellar filters.

An increase in the suction effect is possible in that the zigzag-shaped lamellae are arranged at an acute angle at an angle different from 0 ° to the radial direction, the angle preferably being between 30 ° and 50 °.

Practical tests have shown that the air filter should preferably have a diameter of 20 cm to 80 cm and / or a width of 4 cm to 10 cm and / or a height of 5 cm to 10 cm.

Depending on the application and the space available, it is possible to arrange several air filters one above the other, which can then be driven by a single motor. For this purpose, the individual filters can be coupled to one another, for example via a plug connection, so that only the filter closest to the engine has to be driven. The air filters can be identical or different.

According to a further embodiment of the invention, the air filter or air filters is / are arranged in a cage as an outer housing which preferably at least substantially completely encloses the air filter or air filters. Apart from the optical improvement that is achieved by such a cage, the cage also protects the rotating lamellar filters from damage or protects people from injuries.

In order to facilitate filter replacement, the cage consists of two (or more) detachably connected halves (or parts), preferably with one at right angles to the longitudinal axis of the air filter or the connecting line lying on the cage. To replace the filter, the cage parts are separated from one another so that access to the filter or filters is free.

The air purification device described can be designed both as a standing device and as a hanging device. For this purpose, the device has a column with a foot or a ceiling mount with a rod on which the cage is suspended.

Attaching the air purification device to the ceiling has the advantage that no floor space is required, i.e. the usable area of the room is practically not restricted, whereas the use of a floor-standing device opens up the possibility of moving this device in the room or from room to room.

The air cleaning device according to the invention can also be varied so that several air filters are arranged at a distance from one another in a hollow profile column, each of which has an opening as an air outlet opening for the filtered air at the level of each air filter. In the spacing areas between the horizontal spaces, in each of which an air filter is arranged, additional air inlet openings are arranged in the column, through which air flows horizontally into the column interior and can be drawn in in the longitudinal axial direction into the air filter interior (with rotating air filters). The diametrically opposite air filter outlet openings and the air filter inlet openings are each wide slots. The advantages of such an air purification device column are that the amount of air that can be filtered per unit of time is increased depending on the number of air filters. If necessary, different switching stages can be set up in which different filter groups are operated with two, four or six filters.

Preferably and as is already known in principle from the prior art, the air filter can have several filter layers or lamellar filters made of different materials or filter grades, one behind the other when viewed in the radial direction, for example by using an activated carbon filter in conjunction with a HEPA filter and / or coarse-meshed pre-filters.

As already mentioned, the suction effect is speed-dependent; speeds between 200 rpm and 1000 rpm have proven to be favorable areas of application.

In addition, the air purification device can also be provided with lighting that can be switched off, for example, as part of the room lighting or, if the lighting conditions are insufficient, makes the location of the air purification device immediately recognizable.

• 1, 2 ein Luftreinigungs-Standgerät in einer perspektivischen bzw. in einer geschnittenen Ansicht,
• 3 eine Draufsicht auf einen verwendeten Lamellenfilter,
• 4, 5 ein Luftreinigungsgerät als Hängevorrichtung,
• 6-8 ein Luftreinigungs-Standgerät mit mehreren drehbar übereinander angeordneten Luftfiltern in verschiedenen Ansichten und
• 9 eine Detail-Schnittansicht des Standgerätes nach 6 bis 8.

Embodiments of the invention are shown in the drawings. Show it:

• 1 , 2 a free-standing air cleaning device in a perspective or in a sectional view,
• 3rd a top view of a lamellar filter used,
• 4th , 5 an air cleaning device as a hanging device,
• 6-8 a standing air cleaning device with several rotatable air filters arranged one above the other in different views and
• 9 a detailed sectional view of the standing device according to 6th to 8th .

How in particular 2 can be seen, has the air purification device 10 a stator shaft driven by a motor, not shown 11 , which has an annular disc-shaped rotor 12th drives to rotate, on the outer periphery of which a lamellar filter 13th is attached. By rotating the rotor 12th becomes the lamellar filter 13th set in rotation, whereby the directional arrows 14th or. 15th Air sucked in from below and above is sucked into the annular filter interior and from there after passing through the lamellar filter 13th radially outwards (see arrow 16 ) is driven. In order to achieve the suction effect, the rotating shaft is operated at a speed of between 200 rpm and 1000 rpm.

The air purification device has a cage 17th that at the pillar 18th with a lower stand 19th and completely encloses the filter radially on the outside as from the top and bottom (apart from the passage opening for the air inlet and for the column).

The lamellar filter can preferably have the lamellae, which are arranged in a zigzag shape, in an inclined setting, the angle of inclination α to a radial direction 20th in the present case is 25 °.

The air purification device can, however, also be designed as a hanging device, in which the cage is optionally located 17th can save. Instead of the pillar 18th becomes a staff here 21 used on which the engine 23 as well as the rotor 12th is attached instead of the pedestal 19th becomes a mounting base here 22nd used, which can be attached to the ceiling by means of screws or dowels. The width b of the lamellar filter is between 4 cm and 10 cm and its height H between 5 cm and 10 cm. The air filter diameter can be varied depending on the desired device size and should be between 20 cm and 80 cm.

According to a further embodiment of the invention, the air cleaning device can also have a plurality of air filters which are each arranged at a distance from one another. One such air purifying device is in 6th to 9 shown. The column shown 24 has a cylindrical hollow profile in which several air filters 13th are arranged at a distance one above the other. The hollow profile takes the engine 23 , the continuous stator shaft 11 as well as equidistantly arranged rotors 12th on. There is an air filter on each of the rotors 13th attached, which can be set in rotation by the motor drive. The column has on diametrically opposite sides 24 Air inlets 26th as well as several air outlets 30th , only in the area of the air outlet openings 30th (represented by arrows) each air filter 13th are arranged. The air inlets 26th are located at a vertical height, each between or below the first air filter 13th is arranged. As a result, the openings 26th Air flow in, which is then indicated by arrows 27 , 28 , 29 Run through the flow path shown before the air passes through the filter via the air outlet openings 30th cleaned the column 24 leaves. The column can also have an upper arrow 25th have symbolized air inlet opening. The angle over which the openings extend 26th or. 30th extend is chosen so that air turbulence within the column 24 be avoided. It is therefore advisable to limit the angular dimension γ for the air outlet openings to 90 ° to 130 °. The air inlet openings have an angular dimension which should preferably be the same size, in any case between 90 ° and 160 °.

By driving five air filters arranged one above the other 13th the effect of the air purification device is multiplied accordingly. In principle, the number of air filters arranged one above the other can be selected as desired, with air cleaning floor-standing devices of different heights resulting in different throughputs. In the context of the present invention it is of course possible to drive all air filters by a single motor or, if necessary, to use several motors that drive individual air filters or groups of air filters. By using several motors, the free-standing device can be operated with two, four or six air filters and correspondingly different air throughputs. Another possibility of influencing the amount of air flow is to regulate the speed of the air filter or of each individual air filter. Separate switching and control options thus allow the floor-standing device to be operated with low throughput in normal operation and, for example, to operate the floor-standing device with higher output during breaks, especially when the people in the room avoid the "drafts" caused by the device or want to minimize.

List of reference symbols

10

Air purifier

11

Stator shaft

12th

rotor

13th

Air filter

14th

Air inlet opening

15th

Air inlet opening

16

Air outlet opening

17th

Cage

18th

pillar

19th

Stand base

20th

Radial direction

21

Rod

22nd

Mounting base

23

engine

24

pillar

25th

Air inlet opening

26th

Air inlet opening

27, 28.29

Direction of air movement

30th

Air outlet opening

α

angle

γ

angle

b

width

H

height

Claims (14)

Air cleaning device with a motor, at least one air inlet opening (14, 15) and at least one air outlet opening (16) as well as a tubular air filter (13), characterized in that the motor exclusively drives the air filter (13) to rotate about its longitudinal axis, so that longitudinally axially Air flowing into the air filter interior flows out radially through the air filter (13). Air purification device according to Claim 1 , characterized in that the air filter (13) is designed as a lamellar filter. Air purification device according to Claim 2 , characterized in that the zigzag arranged lamellae at a angle of 0 ° to Radial direction (20) different angles (a) are arranged, which is preferably between 20 ° and 50 °. Air purification devices according to one of the Claims 1 to 3rd , characterized in that the air filter (13) has a diameter of 20 cm to 80 cm and / or a width (b) of 4 cm to 10 cm and / or a height (h) of 5 cm to 10 cm. Air purification devices according to one of the Claims 1 to 4th , characterized in that several air filters (13) are arranged one above the other and can be driven by a single motor. Air purification devices according to Claim 5 , characterized in that several air filters (13) are arranged at a distance from one another in a column (24), each of which has an opening (30) as an air outlet opening for the filtered air at the level of each air filter (13) and that in the spacing areas, which lie between the horizontal spaces, in each of which an air filter (13) is arranged, additional air inlet openings (26) in the column (24) through which air flows horizontally into the column interior and in the longitudinal axial direction into the air filter interior when the air filters (13 ) can be sucked in, the column (24) otherwise being a closed hollow profile. Air purification devices according to Claim 6 , characterized in that the air outlet openings (30) are wide slots which extend over an angular dimension between 90 ° and 160 ° in the column jacket and / or that the additional air inlet openings (26) in the column (24) are diametrically opposite to the air outlet openings ( 30) and extend over an angular dimension (γ) between 90 ° and 130 °. Air purification devices according to one of the Claims 1 to 7th , characterized in that the air filter or air filters (13) are arranged in a cage (17) as an outer housing which preferably substantially completely encloses the air filter or air filters (13). Air purification devices according to Claim 6 , characterized in that the cage (17) consists of two detachably connected halves, preferably with a connecting plane lying transversely to the longitudinal axis of the air filter (13) or the cage (17). Air purification devices according to one of the Claims 1 to 9 , characterized in that the device is designed as a standing or hanging device. Air purification devices according to one of the Claims 1 to 10 , characterized in that the air filter (13) has a plurality of filter layers or lamellar filters made of different materials and / or degrees of filtering, one behind the other, viewed in the radial direction. Air purification devices according to Claim 11 , characterized in that an activated carbon filter and / or a HEPA filter is used. Air purification devices according to one of the Claims 1 to 12th , characterized in that the air filter is operated at a speed between 200 rpm to 1000 rpm. Air purification devices according to one of the Claims 1 to 13th , characterized by integrated lighting.

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