DE4414871A1 - Cleanable room air cleaner - Google Patents

Abstract

The invention relates to an ambient air purifier with a filter assembly comrising a pre-filter (5) and a downstream fine filter (2), a motor driven blower (3) by means of which the ambient air to be filtered is conveyed through the filter assembly and a cleaning device for the pre-filter (5) having a suction nozzle locally (10) covering the outer surface (9) of the pre-filter, in which the outer surface (9) of the pre-filter (5) can be moved in relation to the suction nozzle taking in air from the inside of the filter. The suction nozzle (6) may be connected to an external vacuum device, e.g. a vacuum cleaner, so that the pre-filter can be easily cleaned. The suction nozzle locally covering the outer surface of the pre-filter is to be movable parallel to said surface. The pre-filter is rotatable.

Description

The invention relates to a room air cleaner with a a pre-filter and a downstream fine filter having filter arrangement and, a motor-driven Blower, by means of which the room air to be filtered through the filter assembly is transported.

Air purifiers are known in the prior art. Such devices consist of a blower and a multi-stage filter. Due to the application of Filters with solid particles from the air, such as dust, Bee pollen, bacteria and the like clog in particular especially the fine filters quickly. This leads to one increasing pressure drop across the filter, to a Decrease in air flow and thus a decrease air cleaning effect over time. For Avoiding this disadvantage are known devices the filters were changed at certain intervals. There are also cleanable filters. It is often electrical static filters are used. But there are also Filters known where a liquid cleaning medium, e.g. B. Water is used. This is done on the scriptures DE 39 15 639, DE 31 17 124, DE 38 41 766, DE 34 20 973, DT 20 35 789 and DE 25 01 463 referenced. An electrosta Table precipitation electrode is, for example, in DE 39 15 639 described. Magnets vibrated, so that the dust comes off. In DE 31 17 124 cleaning by pulsing the elec trode reached. In the documents DE 34 20 973, DT 20 35 789 and DE 25 01 463 are the dust-laden parts removed and washed externally. One of them differ de OS 38 41 766 proposes a cleaning method. At This device removes the filter from the air flow unscrewed and clean with a second jet of air  blown. The use of liquid media, for ab Separation of the dust from the air is in the script ten G 91 05 833 and DE 39 33 620 specified. Doing so Water atomized. The water-dust mixture becomes continuously circulated and germ-free through chemical additives held. The dirty water is at regular intervals to replace that.

The room air purifier that is used to achieve a high Filter life has a cleanable electrostatic filter sen generally have the disadvantage that a complex High voltage source is required and that through the occurring ionization of the air ozone occurs. Because ozone smells pungent even in small concentrations and is harmful to health at higher concentrations To consider electrostatic filters critically. Especially at tightly closing windows can be smaller Air exchange rates with the outside air through electrostatic filters to increased concentrations of ozone in living and sleeping come clear. In addition, the mentioned Reini method on the precipitation electrode, e.g. the further disadvantage due to mechanical vibrations, that the collected dust was released into the air ben and at least the immediate vicinity of the device tes to an increased extent with dust. The cleaning of the electrodes by removal and external washing on the other hand, represents a significant one for the user hygienic problem. Dust is removed during removal whirled up by the electrode. Beyond that dry the washed filters for a long time. Both filters working with liquid filter media also the problem of an increase in indoor humidity what is particularly unpleasant in summer. About that Bacteria can also be found in the cleaning liquids  grow, which blows into the room air via the blower can be sen.

The invention is therefore based on the object To make room air purifiers more user-friendly.

The problem is solved by the specified in claim 1 ne invention.

The subclaims represent advantageous developments of the invention.

According to the configuration according to the invention is a Given room air purifier, in which in a simple manner the pre-filter can be cleaned. It is the one Outer surface of the pre-filter covering areas Suction nozzle provided. This can be connected to an external Saugge advises, for example, a household vacuum cleaner or the like Chen can be connected. The areas outside The suction nozzle covering the surface of the pre-filter can who shifted parallel to the outer surface of the pre-filter the. As a result, the suctioned off from the suction nozzle migrates Area over the suction surface of the pre-filter. Because single Lich a portion of the suction surface of the prefilter from the suction nozzle is acted upon by this Pre-filter area sucked suction air, which the filter in Opposite direction to the air to be filtered, through the remaining wall sections, which are free, in the Flow filters. Opening the filter can be done under stay. By slowly moving the suction nozzle over the The entire outer surface of the pre-filter can thus can be cleaned by depositing them in the pre-filter Particles are sucked out of the filter. The out vacuuming is preferably done by household vacuum cleaning ger. For this purpose, the suction nozzle has a corresponding one  Neck on which, or over which one Suction nozzle of the vacuum cleaner can be inserted. in the normal operating condition, d. H. if at the suction nozzle no external suction fan is connected works also the outer surface of the Filtering pre-filter. The air passes through the Connection opening of the suction nozzle for the external suction fan into the suction nozzle. A preferred embodiment of the Invention provides that that covered by the suction nozzle Area less than half, preferably less than a tenth of the filter area of the pre-filter speaks. This optimizes the cleaning effect. The air outflow rate through the prefilter is higher than the air inlet speed. It can be further provided that the prefilter rotationally symmetrical is tric and rotatable about its axis of rotation. The The suction nozzle can be stationary. The pre-filter can be pot-shaped and the filter surface of a cylinder surface and / or a cylinder end face of the pot are formed. The suction nozzle extends advantageously over an entire Radial area of the filter surface, so that by rotation of the filter, the entire filter area on the suction nozzle is led past. To seal the suction nozzle against it is provided above the filter surface that the suction nozzle se has an edge-side bristle strip, which grazes over the filter surface. It can be featured further can be seen that the pre-filter on the outside wall a Git ter structure and has an activated carbon on the inside wall pack. The pre-filter can be operated by an electric motor Rotation. The electric motor can turn who is powered by a vacuum cleaner power source the. It is also preferably provided that during operation of the electric motor that rotates the prefilter, the  Filter fan is stopped. This is the Reini optimized.

An embodiment of the invention is as follows explained with reference to the accompanying drawings. Show it:

Fig. 1 is a view of an air filter positioned setztem vacuum cleaner,

Fig. 2 is a side view of the apparatus,

Fig. 3 is a section according to the line III-III in Fig. 4,

Fig. 4 shows a section according to line IV-IV in Fig. 3,

Fig. 5 is a section along the line VV in Fig. 3 and

Fig. 6, the circuit for operating the prefilter rotation.

The room air filter has two filters 2 , 5 arranged essentially coaxially to one another. The filter 5 is a pre-filter which has an overall pot-shaped or basket-shaped shape. The filter outer surface 9 is formed by the cylindrical surface of the pre-filter 5 . The pot has an upper opening which opens into a fan suction opening 4 . The suction opening 4 is followed by a blower chamber 22 , in which a driven by an electric motor M1 not shown NES impeller 3 is mounted. The fan wheel 3 transports the air from the interior of the pre-filter 5 through the fine filter 2 , which is essentially cuboid, into the exterior.

The room air purifier thus has a multi-stage filter system. It consists of a base plate 29 on which a housing 1 is fastened with four supports 30 . The chamber 22 for the fan wheel 3 is also located in this housing 1 . Between the base plate 29 and the housing 1 there is a rotatable basket, which forms the Vorfil ter 5 . The basket is closed at the bottom 28 ge. The lid 27 of the basket has said opening. The air is sucked in by the impeller 3 through this opening. The upper and lower part of the basket are connected by some supports that are spanned by the Vorfil ter of metal mesh 11 . Inside the basket, an activated carbon filter 13 is ring-shaped net. From the blower outlet, the air is discharged through the fine filter 2 into the outside air. The filter basket is set in slow rotation by the motor 16 (M1) via the drive chain 15 . To clean the Vorfil ters is located on the side of the device, the suction nozzle 6 , which is sealed via the bristle strips 7 , 8 to the prefilter 5 . When the filter basket rotates one after the other, the entire surface of the filter passes the nozzle and is cleaned by the vacuum cleaner 19 attached to the connector 17 . A switch housing 25 is attached to the upper housing 1 , an on-off switch S is provided there for the cleaner. Furthermore, a socket 24 is provided, which supplies electricity only when the room air purifier is switched on. It serves to supply the connected vacuum cleaner 19 . The connector 17 contains electrical contacts 20 which are powered by the vacuum cleaner 19 when it is switched on. As a result, the fan motor is switched off when cleaning the prefilter and the drive motor 16 is switched on for the filter basket. This ensures that the filter basket rotates and the fan remains switched off as long as the vacuum cleaner is switched on and cleans the rotating pre-filter.

The device has the advantage that the prefilter easily cleaned with a household appliance can be. If the prefilter is used regularly in this way intervals, the life of the Prefilter increased many times over. It can be assumed go that the life of the prefilter increase re increased years.

In the exemplary embodiment, the prefilter has a metal grid 11 on the outer wall side, which is cylindrical. If a cylindrical coarse filter 12 is located within the metal grid 11 . This is followed by an activated carbon packing 13 , which also has a cylindrical shape, but has a considerably higher volume. The activated carbon packing can have poured activated carbon before, so that this filter can be replaced in a simple manner by tilting it out and refilling the activated carbon into a corresponding annular receiving space, which is limited inside by a cylindrical wall 31 . The cup-shaped prefilter 5 is rotatable about its axis 14 . For this purpose, the prefilter 5 is surrounded by a chain 15 , which is driven by a pinion of an electric motor 16 . By the electric motor 16 , the prefilter 5 can be brought into slow rotation in the direction X, so that each area of the jacket surface of the prefilter can be guided past the suction nozzle 6 . On the suction nozzle 6 , which extends substantially axially parallel to the axis of rotation 14 , two parallel brushes 7 , 8 are arranged. The brushes graze on the surface of the prefilter 5 , so that an air sealing device is ensured.

The vacuum cleaner 19 is plugged with its intake 18 over the connector 17 and can be locked there with a locking button 21 if necessary. The contacts 20 are struck with corresponding mating contacts of the vacuum cleaner. When the vacuum cleaner 19 is not left in the terminal 17 is inserted, the opening of the connection piece 17 is free, so that in this way, air can be sucked in during operation of the filter, which can be sucked by partial portions 10 of the Vorfilteroberfläche. Despite the constant presence of the suction nozzle, this measure does not reduce the effective filter surface.

In FIG. 6, the electric circuit which is disposed in the control box 25 is shown. At the elec trical contacts 20 , an electric voltage is applied from the vacuum cleaner 19 when the vacuum cleaner 19 is put into operation. This voltage is transmitted via a transformer T and rectified on a rectifier G with a capacitor C. The DC voltage ensures motor M2, which is identical to motor 16 , with current. As a result, the prefilter 5 is rotated on. At the same time, the power supply to the motor M1, which operates the air cleaner fan, is interrupted with a relay R. The plug is sketched at 29 .

It is considered advantageous that the air flow for cleaning the pre-filter only flows through a partial area of the filter, the air drawn in there flowing in through the remaining partial area of the filter. The suction and the partial area ratio ensure that only a small proportion of outside air is sucked in through the fine filter 2 in the opposite direction. This increases its lifespan.

The in the above description, the drawing and Features of the invention disclosed in the claims can both individually and in any combination for the realization of the invention may be of importance. All the features disclosed are essential to the invention. In the disclosure of the application is hereby also the Disclosure content of the associated / attached priori full documents (copy of the pre-registration) included.

Claims (11)

1. Room air cleaner with a filter ( 5 ) and a downstream fine filter ( 2 ) having filter arrangement, a motor-driven fan ( 3 ) by means of which the room air to be filtered is transported through the filter arrangement, and a cleaning device for the pre-filter ( 5 ) which has a suction nozzle covering the outer surface ( 9 ) of the prefilter in regions ( 10 ), the outer surface ( 9 ) of the prefilter ( 5 ) being displaceable relative to the suction nozzle sucking air from the filter interior. 2. Room air cleaner according to claim 1 or in particular according thereto, characterized in that the suction nozzle ( 6 ) to an external suction fan, in particular to a vacuum cleaner ger ( 19 ) can be connected. 3. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the surface area ( 10 ) covered by the suction nozzle ( 6 ) corresponds to less than half, preferably less than one tenth of the filter surface ( 9 ). 4. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized by a rotatability of the rotationally symmetrical pre-filter ( 5 ) relative to the stationary suction nozzle ( 6 ). 5. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the pre-filter ( 5 ) is cup-shaped and the filter surface ( 9 ) from a cylinder jacket surface and / or a cylinder end face is ausgebil det. 6. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the suction nozzle on the filter surface ( 9 ) has bristle strips ( 7 , 8 ). 7. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the pre-filter has a lattice structure ( 11 ) on the outside wall side and an activated carbon packing ( 13 ) on the inside wall side. 8. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the pre-filter ( 5 ) can be rotated by an electric motor (M2, 16 ). 9. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the electric motor ( 16 , M2) is supplied by a power source on the vacuum cleaner side. 10. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the filter fan (M1) is stopped when the electric motor ( 16 , M2) is in operation. 11. Room air cleaner according to one or more of the preceding claims or in particular according thereto, characterized in that the air sucked in by the surface section ( 10 ) covered by the suction nozzle ( 6 ) from the pre-filter ( 5 ) predominantly through the remaining outer filter outer surface ( 9 ) flows into the pre-filter ( 5 ).