AT10809U1 - METHOD AND DEVICE FOR PREPARING ROOM AIR - Google Patents

Description

Austrian Patent Office AT 10 809 U1 2009-10-15

Description: The invention relates to a method for treating room air, in particular for rooms in the gastronomy sector, wherein air is washed with water and the air is charged with negative ions, and a device for treating room air, wherein at least one air scrubber and at least one Ion generator for charging the air with negative ions are provided.

Various methods and devices for the treatment of air are already known from the prior art, these are mostly mobile devices, in which only an air wash, possibly followed by an ionization of the air, is made. However, this does not achieve a sufficient improvement of the room air, especially for the gastronomy sector.

From DE 44 14 598 A1 a method and a device for air treatment is known, in which first an air wash and then an ionization of the air is performed. However, volatile organic compounds in particular disadvantageously remain in the treated air.

From DE 195 03 937 A1 it is known to form a polarized water droplet curtain, through which the air to be treated is passed. The air is also injected negative ions before entering a washout zone via a corona discharge.

Furthermore, US Pat. No. 4,884,416 A discloses air humidification and subsequent ionization. The combination of an ionization device and an air scrubber is also known from GB 2 036 951.

From JP 08-238441 A, the arrangement of a UV lamp between a dust-collecting electrode plate assembly and a VOC filter is known.

On the other hand, e.g. From DE 696 29 979 T2 and EP 1 000 587 A1 biofilter, also called VOC filter known.

The aim of the present invention is therefore to provide a method and a device by which a quality improvement of indoor air, especially in premises of the catering, is achieved reliably.

According to the invention this is achieved in that the air, in particular for the removal of volatile organic compounds from the air, is filtered before the air is introduced into the room. The fact that the air is filtered in addition to the laundry and the ionization with negative ions, in particular, volatile organic substances can be removed from the air. In this case, it has proven to be particularly advantageous if the air is firstly washed, then filtered and finally charged with negative ions.

In order to adjust the air to be treated to a desired temperature with a predetermined humidity, it is advantageous if the air is heated and cooled before washing; In this case, it is particularly advantageous if the heating and cooling of the air is carried out before the air is washed, since the subsequent washing process is an adiabatic process.

Tests have shown that air, which is perceived by humans as high quality fresh air, is present when the air has a high number of negative ions.

When the air in an air supply channel, which opens in the conditioned air to be supplied space is charged with negative ions, the air quality can be improved and also advantageously biogenic deposits can be prevented in the air supply channel.

A high proportion of negative ions in the room air is inventively ensured that negative ions are introduced into the space to be supplied with treated air, in particular in the ceiling area; As a result, it is possible reliably to achieve a number of approximately 1000-2000 anions per cm3 of air, which is perceived as low.

Tests have further shown that the water used for washing the air has a particularly good quality, when the water used for washing the air, ozone is added; This allows the water to be kept germ-free. Furthermore, the water quality with which the air is washed can be improved if the water used to wash the air is exposed to a diamagnetic field. As a result, the quality of the water used for washing is closely approximated to that of fresh spring water, the improved water quality being achieved by washing the air, i. in which the air is intensively interspersed with finely atomized water, is passed on to the air.

The inventive device of the type mentioned is characterized in that a filter, in particular a biofilter, is provided. This results in the advantages already described above in connection with the method according to the invention, so that in order to avoid repetition, reference is made to the above statements.

It when the filter between the air scrubber and the ion generator is arranged and thus from the already washed air residues, especially volatile organic substances, can be filtered out before the air quality can be further improved by means of at least one ion generator is particularly advantageous ,

In this case, ion generators can be used at different locations. On the one hand, it is favorable if at least one ion generator is arranged in a supply air duct, since - in addition to the improvement in air quality - undesired deposits in the supply air duct can thereby be avoided; On the other hand, however, it is also advantageous if at least one ion generator is arranged in the ceiling region of the room to be supplied with the treated air in order to enrich the room with anions in the manner of a shower.

With regard to the improvement or maintenance of the quality of the water, which is used in the air scrubber, it is advantageous if the air scrubber has an ozone electrode, in particular a diamond electrode, for the electrolytic production of ozone in the water itself. Furthermore, it is advantageous for improving the quality of the water used in the air scrubber if the air scrubber has a body made of a silicate material to produce a diamagnetic field. As a result, the quality of the water used can be closely approximated to the quality of fresh spring water, which can also be detected by the crystal structure of the water. In this case, it has proven particularly advantageous if the silicate material contains diabase, dolomite, quartzite and / or a rock from the serpentine group or combinations thereof.

In order to ensure a good quality of the room air without having to make manual settings, it is advantageous if an air sensor for detecting the air quality, in particular the volatile organic compounds in the air, is provided; Depending on the detected measured value, the speed of a Zuluftventi-lators, an exhaust fan, the position of a supply air flap and a recirculation damper and / or at least one ion generator or the air scrubber can be controlled via a control unit.

The invention will be explained in more detail below with reference to preferred embodiments illustrated in the drawings, to which, however, it should not be limited. Specifically, in the drawings: Figure 1 is a schematic representation of an apparatus and method for treating room air; Fig. 2 is a schematic representation of an apparatus and method similar to Fig. 1, but with a separate smoking chamber; and Fig. 3 is a schematic view of an air washer provided for conditioning the air. In Fig. 1, a device or a method for processing of air for a room 1 can be seen, in which case first of the environment 2 outside air by means of a fan 3 is sucked. In the region of the intake channel 4, a supply air flap 5 is provided, the position of which is controlled together with a recirculating air flap 6 via a motor 7.

Before the sucked in by the outside air is supplied to an air scrubber 8, the outside air is first fed to a pre-filter 9 and then heated in a heater 10 and then cooled in a cooler 11 to the desired temperature level of about 22-26 ° C and a humidity of about 40-60%.

Then, the air to be treated enters the air scrubber 8, the structure of which is shown schematically in Fig. 3 in detail. It can be seen that the air scrubber 8 has a plurality of water nozzles 13, via which by means of a pump 13 ', against a flow direction 13 " the air to be treated, the air passed through is washed with the finely atomized water. For this purpose, a water reservoir 14 'is stored in a container 14 of the air washer 8, wherein the stored water is circulated by means of a pump 15, so that the water of an ozone electrode 15' is supplied. As ozone electrode 15 'can be used in particular a diamond electrode, which produces by electrolysis directly from the water hydroxyl radicals OH and ozone 03. Such diamond electrodes are sold in particular by the company CONDIAS GmbH under the brand name Diachem®.

Then there is a body 15 " made of a silicate material through which the water is passed, so that the water is exposed to a diamagnetic field, which is separated from the body 15 " is produced from silicate material. As a result, the crystal structure of the water is changed, so that the quality of the water is very close to that of a fresh spring water. The silicate material preferably includes a combination of diabase, dolomite, quartzite and / or a serpentine group rock.

The disinfected, treated water is then returned to the water reservoir 14 ', from which it is pumped by means of the pump 13' through the nozzles 13 for washing in the flow direction 13 " passed through air is used.

After washing the air, it is then heated in a further heater 10 and then subjected to a biofilter 12, i. an activated carbon filter or VOC (Volatile Organic Com-pounds) filter to also filter volatile organic compounds from the air. After the reprocessed air has left the processing unit consisting of the aforementioned components, it enters a supply air duct 16, which opens below a floor 18 in the space 1. The floor 18 in this case has air passage openings 18 ', so that the treated air, as indicated by arrows 18 " indicated, can enter the room 1. On the inside of the supply air duct 16 in this case a plurality of ion generators 17 are arranged, via which negative ions, i. Anions into which the air to be treated is introduced. Thus, on the one hand, the air quality after washing and the filtering is further improved, on the other hand, biogenic deposits in the supply air duct 16 can be prevented by the arrangement of the ion generators 17 in the supply air duct 16.

To control the most diverse components, a VOC-air sensor 20 is arranged in the space 1, which passes on the detected VOC-lst value to a control unit 21. As a function of the detected actual value and a detected value via an ozone sensor 25 then the motor 7, and thus the position of the flaps 5, 6, and the fan 3, the ion generators 17 in the supply air duct 16 and ion generators 22, which in the ceiling area of the space 1 are arranged, as well as the ozone electrode 15 'and a motor 23 of a fan 23' in the exhaust duct 24 regulated. Furthermore, an ozone generator 25 ', which is controlled by nozzles 25 " Ozone into the supply air duct 16 introduces.

The space 1 has, as already described above, a bottom-side ventilation, wherein in the ceiling area a false ceiling 26 is retracted, in which the ion generators 22 are arranged, wherein between the false ceiling 26 and the ceiling 27 of the room 1 3/8

Claims (14)

Austrian Patent Office AT 10 809 U1 2009-10-15 the exhaust duct 24 is connected, which is assigned to the fan 23 'controlled by the motor 23. From the exhaust duct 24 a recirculating air duct 28 is branched off, in which a further filter 29 is received, wherein the recirculating air duct 28 is connected to the intake duct 4. Furthermore, the space 1 has an opening 30 in the bottom area, through which ground source air can enter the room 1. In Fig. 2 is a very similar to that of Fig. 1 schematic representation is shown, but in the room 1 a closed from the rest of the room 1 smoking cabin 31 is added. The smoking cabin 31 has an air outlet 32, via which the air is partially discharged to the environment by means of an exhaust duct 33 and partially via a connecting channel 28 ', in which also a filter 29 and a motor-driven flap 33 is provided from the smoking cabin 31 in the Umluftkanal 28 is introduced. Claims 1. A method for treating room air, in particular for rooms in the catering trade, wherein air is washed with water and the air is charged with negative ions, and the air is first washed, then filtered and finally charged with negative ions, characterized in that The air for removing volatile organic compounds from the air is bio-filtered before the air is introduced into the room. 2. The method according to claim 1, characterized in that the air is heated and cooled before washing. 3. The method according to claim 1 or 2, characterized in that the air in an air supply channel (16), which opens in the conditioned air to be supplied with space (1) is charged with negative ions. 4. The method according to any one of claims 1 to 3, characterized in that in the conditioned air to be supplied with space (1), in particular in the ceiling area, negative ions are introduced. 5. The method according to any one of claims 1 to 4, characterized in that the water used for washing the air, ozone is added. 6. The method according to any one of claims 1 to 5, characterized in that the water used for washing the air is exposed to a diamagnetic field. 7. Apparatus for treating room air, in particular for rooms in the catering sector, wherein at least one air scrubber (8) and at least one ion generator (17,22) are provided for charging the air with negative ions, and the filter (12) between the air scrubber ( 8) and the ion generator (17, 22) is arranged, characterized in that a bio-filter (12) is provided. 8. The device according to claim 7, characterized in that at least one ion generator (17) in a supply air duct (16) is arranged. 9. Apparatus according to claim 7 or 8, characterized in that at least one ion generator (17) is arranged in the ceiling region of the space to be supplied with the treated air (1). 10. Device according to one of claims 7 to 9, characterized in that the air scrubber (8) has an ozone electrode (15 '), in particular a diamond electrode. A device according to any one of claims 7 to 10, characterized in that the air scrubber (8) for generating a diamagnetic field comprises a body (15 ") of silicate material. 4/8 Austrian Patent Office AT 10 809 U1 2009-10-15 12. The device according to claim 11, characterized in that the silicate material contains diabase, dolomite, quartzite and / or a rock of the serpentine group or combinations thereof. 13. Device according to one of claims 7 to 12, characterized in that an air sensor (20) for detecting the air quality, in particular the volatile organic compounds in the air, is provided. 14. The device according to claim 13, characterized in that in dependence of the detected measured value via a control unit (21) the speed of a supply air and exhaust fan (3, 23 '), the position of a supply and a recirculating air flap (5, 7) and / or at least one ion generator (17,22) or the air scrubber (8) are controlled. For this 3 sheets drawings 5/8