WO2009010144A2

WO2009010144A2 - Device and filter unit for water treatment

Info

Publication number: WO2009010144A2
Application number: PCT/EP2008/004879
Authority: WO
Inventors: Viktor Zwinger
Original assignee: Aqua Living Gmbh & Co. Kg
Priority date: 2007-07-13
Filing date: 2008-06-18
Publication date: 2009-01-22
Also published as: WO2009010144A3; DE102007033073A1; EP2167430A2

Abstract

The invention relates to a water treatment device (2) comprising a hydraulic unit (4) and a filter unit (6). The hydraulic unit (4) comprises an inlet (8) for water to be treated and an outlet (10) for removing the treated water which has passed through the filter unit (6). The filter unit (6) comprises a plurality of filters (12) and is detachably connected to the hydraulic unit (4). The device (2) comprises a water-conducting interface arrangement (14) comprising a first interface (16) associated with the hydraulic unit (4) and another complementary interface associated with the filter unit (6). The interface arrangement (14) comprises more than one water supply line (20) leading from the hydraulic unit (4) into the filter unit (6), and more than one water outlet (22) leading from the filter unit (6) into the hydraulic unit (4).

Description

Device and filter unit for water treatment

The invention relates to a device for water treatment with a hydraulic unit and with a filter unit. The hydraulic unit has a water inlet for water to be treated and a water outlet for removal of the filtered through the filter unit, treated water. The filter unit comprises a plurality of filters and is detachably connected to the hydraulic unit. The device is supplied in particular drinking water, the quality of which is further improved by the filters contained in the device. The invention further relates to a corresponding filter unit.

Water treatment systems are known in which individual filters are connected in series with one another via hose connections. To replace the filters, they must be disconnected from the hose connections at the location of the water treatment system and then new filters connected. A filter change is thereby very time consuming and error prone.

In order to enable a faster and less error-prone replacement of the filter, were water treatment device of the type mentioned developed. Here, several filters are arranged in a single filter cartridge in a row. Water introduced into the hydraulic unit is first supplied to a water inlet of the filter cartridge, then passes through the filter cartridge and then leaves the cartridge through a water outlet before it is ready for removal at a water outlet. The filter cartridge is detachably connected to the hydraulic unit, ie the filter unit can be separated as a whole from the hydraulic unit, removed from the device and then a new filter unit re-inserted into the device and connected to the hydraulic unit. A disadvantage of such devices, however, is that the water to be treated always passes through the individual filters of the device in a predetermined and unchangeable order. The hydraulics of the device can not be varied and adapted to different situations.

The invention has for its object to provide a device for water treatment of the type mentioned, in which the aforementioned disadvantages are reduced.

The invention solves this problem by a device having the features of patent claim 1 and by a filter unit having the features of claim 10. Further advantageous embodiments of the invention are described in the dependent claims 2 to 9.

According to the invention, the device comprises a water-conducting interface arrangement with a first, the hydraulic unit associated interface and a to this complementarily formed further, the filter unit associated interface. In this case, the interface arrangement has more than one water inlet from the hydraulic unit into the filter unit and more than one water outlet from the filter unit into the hydraulic unit. As a result, on the one hand, the filter unit with all the filters contained therein can be replaced quickly and safely. At the same time, however, a more variable configurability of the hydraulic arrangement of the individual filters of the device via a change in the interface arrangement is possible. Thus, for example, in the case of disinfection of the device with a hydrogen peroxide solution, an activated carbon filter used in the filter unit can be excluded from the disinfection by a bypass for the duration of the disinfection. Otherwise the hydrogen peroxide solution would destroy the activated carbon filter. This also allows physical parameters of the water to be treated in the hydraulic unit to be selectively changed and adjusted by suitable means before the water is fed to a filter of the device. The quality of the water treatment is thereby improved. The advantages of the known water treatment systems described above are combined in the device according to the invention, while the respective disadvantages are reduced.

In a preferred embodiment of the invention, the filters are individually interchangeable connected to the filter unit. As a result, the assembly of the filter unit with filters can be individually configured and also subsequently changed. An individual adaptation of the filter unit to the quality of the water to be treated and to the desired quality of the treated water is thereby possible. Advantageously, the filters are connected via water pipes to the further, the filter unit associated interface and at least one water pipe is detachably connected to at least one filter and / or connected to the other interface. By this configuration, a simple bridging of individual filters, for example for cleaning the device, possible. The water inlet and the water outlet of the filter to be bridged is connected to each other directly without the interposition of the filter.

In a particularly preferred embodiment of the invention, the device has a membrane filter and a water inlet to the membrane filter, a Nutzwasserablauf for treated by the membrane filter water and a water drain for used for cleaning the membrane filter water. With the help of the membrane filter even the smallest impurities can be effectively filtered out of the water to be treated. The membrane-filtered water leaves the membrane filter through the utility water drain. Part of the water fed to the membrane filter water is passed over the surface of the membrane filter and fed to the wastewater drain. Impurities deposited on the membrane filter surface are entrained by the flow of the water passed on the membrane filter surface and disposed of via the waste water outlet. The membrane filter is thereby cleaned without having to remove the membrane filter from the device. The ratio of the water supplied to the membrane filter and the water leaving the membrane filter via the waste water outlet is preferably by means of valves and throttling elements adjustable and adaptable to the individual contamination of the water to be treated and to the degree of contamination of the membrane filter.

In a particularly preferred embodiment of the invention, the membrane filter is arranged in the hydraulic unit. As a result, costs can be saved because when replacing a dirty filter unit with a new filter unit of the membrane filter of the device does not need to be replaced. An exchange of the membrane filter is unnecessary by the aforementioned cleaning mechanism of the membrane filter.

Advantageously, the device has at least one booster pump, which increases the pressure of the water to be treated, before the water is fed to a downstream filter. As a result, an individual adjustment of the water pressure of the water to be treated to the needs of each filter is adaptable. In particular, a booster pump is positioned between a sediment pre-filter and a downstream membrane filter. The sediment pre-filter requires a lower water pressure than the membrane filter for an optimal filter result. By providing the booster pump, both filters can be operated at the optimum water pressure for each filter.

In an advantageous embodiment of the invention, the device has a safety device which closes a valve in the water inlet of the hydraulic unit at a separation of the filter unit from the hydraulic unit and interrupts the power supply to the hydraulic unit. This embodiment ensures that When removing the filter unit from the device undesirable water escapes from the first, the hydraulic unit associated interface.

Advantageously, the device has a tank for storing treated water and the interface arrangement is arranged higher relative to the earth's surface than the maximum filling level of the tank. This configuration ensures that water that has not already been treated undesirably escapes from the tank through the first interface associated with the hydraulic unit when the filter unit is separated from the hydraulic unit.

In a particularly preferred embodiment of the invention, the device has a circulation water line, which leads out of the tank and back into the tank, wherein the water outlet of the hydraulic unit is connected via a valve to the circulation water line and in the water flow of the circulation water line a Nachentkeimungsfilter is arranged , The post-sterilization filter is particularly preferably formed by a ceramic filter. By means of this embodiment, it is achieved that the treated water stored in the tank is again sterilized continuously or discontinuously. In particular, during prolonged storage of the already treated water thereby a sterility of the device removed water is ensured. In a particularly preferred embodiment of the invention, the ceramic filter is arranged between the tank and the water outlet in the circulation water line. As a result, the treated water leaving the water outlet is removed immediately before removal. again sterilized by the post-sterilization filter. The water quality of the treated water can be further improved.

Advantageously, the post-sterilization filter is arranged in the filter unit. As a result, a simple replacement of Nachentkeimungsfilters is possible together with the other filters of the filter unit.

In a particularly preferred embodiment of the invention, one or more pre-filters selected from the group of sediment pre-filters, softener filters and / or activated carbon filters, then a membrane filter and finally a ceramic filter connected in series with each other in the device. This filter combination ensures optimal purification of the water to be treated for a variety of drinking water qualities to be treated, which are supplied to the device.

Further details and advantageous embodiments of the invention are described in the dependent claims and the following described schematically illustrated embodiments; show it:

1 is a hydraulic circuit diagram of the device according to the invention,

2 shows a device according to the invention in three-dimensional representation with hydraulic unit and filter unit, which is surrounded by a tank, 3 shows the hydraulic unit from FIG. 2 in a three-dimensional representation,

Fig. 4 shows the filter unit of Fig. 2 with the cover removed and without surrounding tank in three-dimensional representation and

5 is a sectional view taken along the line V-V in Fig. 4th

In the following, elements with the same effect will, if appropriate, be given a uniform reference number.

Fig. 1 shows a hydraulic circuit diagram of a device 2 according to the invention with a hydraulic unit and a filter unit 6. The hydraulic unit 4 has a water inlet 8 for water to be treated and a water outlet 10 for the removal of treated water. The filter unit 6 comprises a plurality of filters 12 and is detachably connected to the hydraulic unit 4. "Releasable" includes a complete removal of the filter unit 6 from the hydraulic unit 4 as well as a renewed insertion of the filter unit 6 in the hydraulic unit 4 with a. The device 2 comprises a water-conducting interface arrangement 14 with a first interface 16 assigned to the hydraulic unit 4 and a further interface 18 associated therewith complementary to the filter unit 6. The interface arrangement 14 has four water inlets 20 from the hydraulic unit 4 into the filter unit 6 and four water drains 22 from the filter unit 6 in the hydraulic unit 4. The individual filters 12 of the filter unit 6 are connected via water lines 24 to the further interface 18, as shown in FIGS. 4 and 5 can be seen. The water pipes 24 are detachably connected to the filters 12 and to the further interface 18.

The device 2 has a membrane filter 26 and a water inlet 28 to the membrane filter 26, a utility water outlet 30 for treated by the membrane filter 26 water and a waste water drain 32 for the purification of the membrane filter 26 used water. The preferred positioning of the membrane filter 26 within the device 2 in the hydraulic unit 4 can be seen in FIG. The ratio of the water supplied to the membrane filter 26 and the water leaving the membrane filter 26 via the waste water outlet 32 can be adjusted by means of valves 34 and throttling elements 36. As a result, an individual adaptation of the cleaning to the degree of soiling of the water to be treated and to the degree of soiling of the membrane filter 26 is possible.

The apparatus includes a booster pump 38 which increases the pressure of the water to be treated before the water is supplied to the membrane filter 26. In the exemplary embodiment, the booster pump 38 is arranged between a first pre-filter 12a and a second pre-filter 12b, so that the water to be treated at elevated pressure is supplied to the second pre-filter 12b, a further pre-filter 12c directly connected thereto and the membrane filter 26. The pre-filter 12a is formed in the embodiment of a sediment filter 12a, the pre-filter 12b of a softening filter 12b and the pre-filter 12c of an activated carbon filter 12c. The membrane filter 26 is followed by a ceramic filter 12d for sterilizing the treated water. The device 2 has a safety device 40 shown in FIG. 5, which closes a valve 42 in the water inlet 8 of the hydraulic unit 4 when the filter unit 6 is separated from the hydraulic unit 4 and interrupts the power supply to the hydraulic unit 4.

The device 2 has a tank 44 for the storage of treated water, the positioning of FIG. 2 can be seen. The tank 44 surrounds the filter unit 6. The interface assembly 14 is relative to the earth's surface, shown in Fig. 5 due to the vertical orientation of the device 2 represented by the lower blade edge, higher than a maximum filling level 46 of the water stored in the tank 44.

As can be seen from FIG. 1, the device 2 has a circulation water line 48 which leads out of the tank 44 and back into the tank 44. The water outlet 10 is connected via a valve 50 to the circulation water line 48. In the water flow of the circulation water line 48, a Nachentkeimungsfilter 12 e is arranged, which is positioned in the exemplary embodiment in the filter unit 6.

Claims

claims

1. Device (2) for water treatment with a hydraulic unit (4) and a filter unit (6), wherein the hydraulic unit (4) has a water inlet (8) for water to be treated and a water outlet (10) for removal of the filter unit (6) wherein the filter unit (6) comprises a plurality of filters (12) and is detachably connected to the hydraulic unit (4), characterized in that the apparatus (2) comprises a water-conducting interface arrangement (14) with a first of the Hydraulic unit (4) associated interface (16) and a complementary to this formed further, the filter unit (6) associated interface, wherein the interface arrangement (14) more than one water inlet (20) from the hydraulic unit (4) in the filter unit (6 ) and more than one water outlet (22) from the filter unit (6) in the hydraulic unit (4).

2. Device (2) according to claim 1, characterized in that the filters (12) are individually interchangeable with the filter unit (6) connected.

3. Device (2) according to one of the preceding claims, characterized in that the filters (12) via water lines (24) to the further interface (18) are connected and at least one water pipe (24) releasably connected to at least one filter (12). and / or connected to the further interface (18).

4. Device (2) according to one of the preceding claims, characterized in that the device (2) has a membrane filter (26) and a water inlet (28) to the membrane filter (26), a Nutzwasserablauf (30) for through the membrane filter (26). treated water and a waste water drain (32) for the purification of the membrane filter (26) used water.

5. Device (2) according to claim 4, characterized in that the membrane filter (26) in the hydraulic unit (4) is arranged.

6. Device (2) according to one of the preceding claims, characterized in that the device (2) has at least one booster pump (38) which increases the pressure of the water to be treated, before the water a downstream filter (12 b, 12 c, 26 ) is supplied.

7. Device (2) according to any one of the preceding claims, characterized in that the device (2) has a safety device (40) which, upon separation of the filter unit (6) from the hydraulic unit (4), a valve (42) in the water inlet (8) the hydraulic unit (4) closes and the power supply to the hydraulic unit (4) interrupts.

8. Device (2) according to one of the preceding claims, characterized in that the device (2) has a tank (44) for the storage of treated water and the interface arrangement (14) relative to the earth's surface is arranged higher than a maximum filling level (46) of the water in the tank (44).

9. Device (2) according to claim 8, characterized in that the device (2) has a circulation water line (48) which leads out of the tank (44) and back into the tank (44), the water outlet (10). the hydraulic unit (4) via a valve (50) with the circulation water line (48) is connected and in the water flow of the circulation water line (48) a Nachentkeimungsfilter (12e) is arranged.

10. Device (2) according to claim 9, characterized in that the Nachentkeimungsfilter (12 e) in the filter unit (6) is arranged.

11. Filter unit (6) with the features of one of the preceding claims.