EP2061579A1

EP2061579A1 - Purification module for purifying and moistening air

Info

Publication number: EP2061579A1
Application number: EP07802312A
Authority: EP
Inventors: Thomas Rotter
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-09-15
Filing date: 2007-09-14
Publication date: 2009-05-27
Also published as: WO2008031606A1; WO2008031606B1; DE102006043427A1; DE102006043427B4

Abstract

The present invention relates to a device having a hydroculture for purifying and moistening air in rooms, in particular in living rooms, a purification module for use in such a device, and a method of purifying and moistening air. The device comprises a plant container (2) and a substrate (4) situated therein made of a liquid or solid substance as base for at least one plant, at least one plant (6) which is rooted in the substrate (4), and a purification module which is arranged in the plant container (2).

Description

Cleaning module for cleaning and humidifying air

The present invention relates to a cleaning module for use in a device with a hydroponic culture for cleaning and humidifying air in rooms, in particular in living spaces.

Are known air cleaning devices with a hydroponic for living spaces, which suck the contaminated ambient air to be cleaned and without pre-cleaning in the substrate of the hydroponic culture, which may contain activated carbon initiate. These devices suck by means of a fan, which is attached for example laterally on the plant vessel of the hydroponic culture, the ambient air and lead them either from the side or from below the plant vessel with the granules therein, in which the hydroponic culture is rooted.

A disadvantage of such air cleaning devices is that the granules are heavily polluted and dry out in the medium term because of the direct supply of contaminated ambient air into the hydroponic culture. Both soiling and dehydration have a detrimental effect on the growth of the plants and the micro-life in the granules of the hydroponic culture, whereby the granules have a filtering effect with respect to the dust or dirt particles of the ambient air and biodegrade the filtered contaminations.

Therefore, the present invention has for its object to provide a device with a hydroponic culture for cleaning and humidifying air in rooms, especially in living spaces, in which the medium-term contamination and dehydration of the granules is omitted and which is also inexpensive and efficient.

It is another object of the present invention to provide a cleaning module for use in the plant vessel of such a device. In addition, the present invention has for its object to provide a method for cleaning and humidifying ambient air.

The object is achieved with the features of the claims. Preferred embodiments of the invention are subject of the dependent claims.

The device according to the invention for cleaning and humidifying air comprises a plant vessel and a substrate of a liquid or solid substance underlying it for at least one plant, at least one plant rooted in the substrate, and a cleaning module arranged in the plant vessel ,

The cleaning module of the device according to the invention comprises a cleaning container having a first opening for supplying the water in the substrate by means of a water pump unit and supplying contaminated ambient air by means of a suction unit, wherein a cleaning unit made of a hydrophilic, i. water wettable material is used as a filter on which forms a substantially continuous water film for pre-filtering and moistening the sucked ambient air when feeding the water, and at the passage of which the water mixed with the ambient air. Furthermore, the cleaning container comprises a second opening, via which the water supplied to the cleaning container flows into the plant container. In principle, a drain line can also be discharged from this opening and open into the substrate. Furthermore, the cleaning container comprises a third opening for discharging the contaminated ambient air supplied to the cleaning container by means of the suction unit, wherein the suction unit presses the ambient air into the substrate via the third opening.

The cleaning module of the device according to the invention also comprises a water pump unit for conveying the water from the substrate into the cleaning module and a suction unit for supplying and discharging the contaminated ambient air, the suction unit basically inside (downstream of the filter) or outside (upstream) the filter) of the cleaning tank can be arranged.

An advantage of the device according to the invention is that it pre-cleans or prefilters the cleaned, sucked ambient air by means of the water film on the cleaning unit acting as a filter, i. freed from coarse dust particles, and on the other hand moistened before it introduces the ambient air in the substrate of the hydroponic or depresses. This counteracts the aforementioned medium-term contamination and drying of the substrate, since the water / air mixture can condense in the form of fine droplets on the substrate. By preventing dehydration, the organic life in the substrate does not die off. On the other hand, the device returns the enriched in the cleaning tank with the contaminated ambient air water back into the substrate to finally get rid of it by the substrate as the main and final filter biologically largely from the impurities. The described cleaning and moistening process of the ambient air is an iterative process whose effect will only become noticeable to the user of the device after some time.

In the following an embodiment of the invention will be explained in more detail with reference to a drawing with figures. Show it:

FIG. 1a shows a first perspective illustration of a device according to the invention for cleaning and humidifying air,

FIG. 1 b shows a second perspective illustration of the same device according to the invention,

Figure 2 is a sectional view of the illustrated in Figures 1 and 2, the inventive device and

3 shows a sectional view of a further embodiment of the device according to the invention with suction device arranged upstream of the filter. In a plant vessel 2 of a hydroponic plant 6 together with a culture pot 5 is arranged on the vessel bottom 2b and thereby inserted into a substrate 4 made of a solid, structurally stable substance, preferably expanded clay, with water 4b in the substrate 4. A cleaning module according to the invention is preferably arranged in the plant vessel 2 on the vessel bottom 2b next to the plant 6 and likewise inserted into the substrate 4. In principle, the cleaning module does not have to be arranged completely, ie with all its components in the plant vessel 2. Embodiments of the device according to the invention in which individual components of the cleaning module are arranged outside the plant vessel 2 are also conceivable.

The cleaning module according to the invention comprises a multi-part cleaning container 8 with a first, in the position of use top cover 8a and first container part; a second, in the use position upper container part 8b, on which the cover 8a is arranged; a third, in the position of use middle container part 8c and second, in the position of use middle lid on which the second container part 8b is arranged together with cover 8a, and a fourth, in the position of use lower container part 8d, on which the middle lid 8c including construction is arranged. In this case, the first, second and third container part form a first container space, while the third and the fourth container part form a second container space, wherein both container spaces are separated from each other by the middle lid 8c. The fourth container part 8d is expediently provided at its lower end in the position of use on two opposite sides with air outlet slots for removing ambient air. Alternatively, this fourth container part 8d could also be provided with legs and instead of the lateral air outlet slots with formed at the bottom of the container part 8d air outlet slots.

A source stone 28 is advantageously arranged on the lid 8a, which is connected to a water pump unit 22 arranged in the fourth container part 8d in the region near the bottom of the plant container 2, the water pump unit 22 projecting into the water 4b located in the substrate 4. The water line 24 extends from the water pump unit 22 through an opening in the middle lid 8c and an opening in the upper lid 8a to the spring stone 28 and its inner water pipe 26th

In the upper cover 8a, a further opening 10 is provided, into which a cleaning unit 12, acting as a filter, of a water-wettable material is inserted. On the other hand, two further openings 14 and 18 are provided in the middle lid 8c, wherein a discharge line 16 expediently integrally formed integrally with the middle lid 8c discharges from the opening 14 and opens into the substrate 4, whereas a suction unit 20 is preferably inserted into the third opening 18 is. In principle, the suction unit 20 can also be located outside the cleaning container 8, for example above the cleaning unit 12, i. be arranged in the flow direction of the ambient air in front of the cleaning unit 12.

In principle, the cleaning unit 12 does not have to be concave with respect to the cleaning container 8, as shown in the present exemplary embodiment. Rather, a convex, i. based on the cleaning container 8 raised training of the cleaning unit 12 conceivable, which expediently takes the place of the source stone 28 and in turn has a water outlet 30 which is connected to the water line 24.

The cleaning unit 12 preferably comprises stainless steel fibers in fabric form. In principle, however, natural or artificial fibers for the cleaning unit 12 are conceivable. The fibers thereby form a mesh size of 0.1 to 1 mm, preferably 0.1 to 0.5 mm, in particular 0.2 to 0.4 mm. The diameter of the fibers can be 0.05 to 1.5 mm. The suction power of the suction unit 20 is 10 to 100m ³ air / h, preferably 25 to 60m ³ air / h, in particular about 50m ³ air / h. The pumping capacity of the water pump unit is 1 to 5 L / min, preferably 2 to 4 L / min.

In the following, the operation of the device according to the invention will be explained in detail. The water pump unit 22 requests the water 4b located in the substrate 4 via the water line 24 to the water outlet 30 of the source stone 28 to drain the water 4b along the source stone 28 to the upper side of the upper cover 8a in the position of use. The lid 8a is designed in such a way that it supplies the water 4b to the opening 10 with the filtering cleaning unit 12 inserted therein and allows it to flow into it. In this case, a largely continuous water film is formed on the filter of the cleaning unit 12.

The suction unit 20 sucks the contaminated ambient air to be cleaned through the cleaning unit 12 into the first tank space of the cleaning module. The water film filters out the ambient air on the one hand, i. frees the ambient air from coarse dust or dirt particles, and on the other hand enriches the ambient air with water, i. moistens the sucked in ambient air. In addition, the suction unit 20 sucks the sucked in the first container space, prefiltered and humidified ambient air through the opening 18 and at the same time in the second container space of the cleaning module. For this second container space, the suction unit 20 presses the ambient air through the said air outlet slots of the fourth container part 8d in the near-bottom region of the plant vessel into the substrate 4 and supplies the substrate with sufficient air and moisture. Finally, the ambient air penetrates the substrate 4 to the outside. The height of the substrate in the plant container is designed so that the filtered air is passed through the interstices of the expanded clay to the outside and thereby comes into contact with the surface of the expanded clay. Surface contact initiates condensation of the water, i. larger droplets from the air / water mixture are removed. Through this aqueous condensate film and the water in the sump, the air is again enriched with water vapor, so that the entire environment adjusts to a pleasant relative humidity of 50-65%.

On the other hand, the suction process enriches the water flowing into the first container space of the cleaning module with contaminated ambient air, wherein the enrichment of the water with contaminated ambient air both at the cleaning unit 12 acting as a filter itself and in the flow direction of the Ambient air takes place immediately behind the cleaning unit 12 when the water film breaks down into individual drops of water. The water flows back through the opening 14 and the line 16 into the plant vessel 2, where it is finally freed from the substrate 4 as a main or final filter as far as possible from the biological contaminants.

In the case of the outside of the cleaning tank 8 and above the cleaning unit 12 arranged suction unit 20, as shown in Figure 4, this pushes the ambient air through the cleaning unit 12 in the cleaning tank 8 and out of this again.

FIG. 3 shows a second embodiment in which the suction unit is arranged outside the cleaning tank 8 and above the cleaning unit 12. In this case, the suction unit 20 (usually a fan) sucks in ambient air and delivers it from above to the filter 12.

In this case, the cleaning container 8, which is open both at its upper and at its lower end, directly in the water 14 and there takes the water pump unit 22 in its interior. The upper end of the cleaning container 8 is guided over the substrate 4, which surrounds the cleaning container 8 on all sides. In its interior, the cleaning container 8 has a substantially horizontally extending bottom 36, in which the first opening 10 is embedded with the filter 12. On this annular surface of the bottom 36, the suction unit 20 is by means of a closed bell-shaped wall, which may optionally have openings for the regulation of the air on. Furthermore, the water pipe 24 passes through the annular bottom 36, on the surface of which water is pumped by means of the water pump 22. Advantageously, the opening 10 is surrounded on the bottom 36 with an annular wall 40 so that an annular water reservoir 42 can form on the ground. This reservoir 42 equalizes the flow of water to the filter 12.

The effect of the suction unit 20 is shown by the arrows in FIG. So it sucks the suction unit 20 ambient air and pushes them through the water wetted filters 12. A water / air mixture is formed entraining the contaminated particles, with most of the droplets falling into the sump through the second opening 14. The air flows downstream of the filter 12 through the third openings 18, which are provided in the cleaning tank 8, in the substrate 4, which serves on the one hand as a condensing agent for entrained water droplets and on the other hand to enrich the air with water vapor. As a result, the finely divided substrate in the form of expanded clay particles is coated with a water film, which evaporates the water in the form of water vapor due to the large surface of the expanded clay when passing air. When the air escapes from the substrate, it is saturated with water vapor, which causes the relative humidity of dry rooms to increase gradually, with a constant value between 50 and 65%, which is very pleasant.

An advantage of the device according to the invention is that it pre-cleans or prefilters the cleaned, sucked ambient air by means of the water film on the cleaning unit 12 functioning as a filter on the one hand. freed from coarse dust particles, and on the other hand moistened before it introduces or compresses the ambient air in the substrate 4 of the hydroponic culture. This counteracts the aforementioned medium-term heavy pollution and drying of the substrate 4. By preventing dehydration, the organic life in the substrate 4 does not die off. On the other hand, the device returns the enriched in the cleaning tank 8 with the contaminated ambient air water back into the substrate 4, to finally free it by means of the substrate 4 as a main or final filter biologically as far as possible from the impurities. The described cleaning and moistening process of the ambient air is an iterative process whose effect will only become noticeable to the user of the device after some time.

Claims

claims:

A cleaning module for cleaning and humidifying air for use in a plant vessel (2) and a substrate (4) of a liquid or solid substance therein as a substrate for at least one plant rooted in the substrate (4)

a water pump unit (22), with the water (4b) from the substrate (4) is conveyed into the cleaning module, a suction unit (20), with the contaminated air can be supplied, and

a cleaning container (8) insertable into the plant vessel (2), a first opening (10) for supplying the water (4b) in the substrate (4) by means of the water pump unit (22) and supplying the contaminated ambient air by means of Suction unit (20), wherein in the opening (10) a cleaning unit (12) made of a water-wettable material is used as a filter on which forms a substantially continuous water film when supplying the Wassqrs (4b) and humidifies the sucked through ambient air and thus enriched with water,

a second opening (14) through which the cleaning unit supplied water (4b) can flow into the plant vessel (2), and

further comprising a third opening (18) through which the contaminated ambient air supplied to the cleaning unit can be discharged by means of the suction unit (20), wherein the suction unit (20) can push the ambient air into the substrate (4) via the third opening (18) ,

2. Cleaning module according to claim 1, characterized in that in the opening (10) used cleaning unit (12) has a concave or convex shape with respect to the cleaning container.

3. Cleaning module according to claim 1, characterized in that the suction unit (20) is inserted into the third opening (18).

4. Cleaning module according to claim 1, characterized in that the suction unit (20) is arranged in its position of use in upstream of the first opening (10).

5. Cleaning module according to claim 4, characterized in that the suction unit (20) by means of a bell-shaped wall (30) on a bottom (36) is arranged, which extends substantially horizontally through the cleaning container (8) and the first opening (10) which is in fluid communication with the environment via the suction unit (20).

6. Cleaning module according to claim 1 or 2, characterized in that the cleaning unit (12) is metallic, natural or artificial fibers, in particular stainless steel fibers with a diameter of the fibers 0.05 to 1.5 mm and a mesh size of 0.1 to 1 mm, preferably 0.1 to 0.5 mm, in particular 0.2 to 0.4 mm.

7. Cleaning module according to one of claims Ibis 4, characterized in that the suction power of the suction unit (20) 10 to 100m ³ air / h, preferably 25 to 60m ³ air / h, in particular about 50m ³ air / h.

8. Cleaning module according to one of claims 10 or 17, characterized in that the pump power of the water pump unit is 1 to 5L / min, preferably 2 to 4L / min.

9. Device for cleaning and humidifying air with

a plant vessel (2) and a substrate (4) made of a liquid or solid substance as substrate for at least one plant, which is rooted in the substrate (4), a cleaning module provided in the plant vessel (2),

a water pump unit (22) for conveying water (4b) from the substrate (4) into the cleaning module and a suction unit (20) for supplying contaminated air,

the cleaning module having a cleaning container (8) having a first opening (10) for supplying the water (4b) in the substrate (4) by means of the water pump unit (22) and supplying the contaminated ambient air by means of the suction unit (20), wherein in the opening (10) a cleaning unit (12) made of a water-wettable material is used as a filter on which when supplying the water (4b) forms a substantially continuous Wasserfϊlm which moistens the sucked ambient air and thus enriched with water,

a second opening (14) through which the cleaning unit supplied water (4b) flows into the plant vessel (2), and

Further, a third opening (18) for discharging the cleaning unit supplied contaminated ambient air by means of the suction unit (20), wherein the suction unit (20) pushes the ambient air through the third opening (18) in the substrate (4).

10. The device according to claim 9, characterized in that the substrate is a solid, structurally stable substance, preferably expanded clay.