DE3840276A1 - Device for treating drinking water - Google Patents

Abstract

Since it is difficult in producing drinking water, in particular in areas having a water shortage, to ensure an adequate water quality both with respect to dissolved matter and with respect to sterility, it is suggested that the consumer give a further treatment at least to the water required for consumption. A device having at least two treatment chambers (9, 10) connected one after the other is proposed, through which treatment chambers the flow passes unpressurised, the first treatment chamber being designed as a filter chamber (9) and the second treatment chamber being designed as a sterilisation chamber (10) by the arrangement of an immersed UV irradiator (27). Since chlorine is also removed from the water in the filter chamber (9) preferably filled with activated charcoal, the necessary sterility is ensured by the subsequent irradiation with UV light. <IMAGE>

Description

The invention relates to a device for treatment of drinking water, especially for household use, which can be connected to a water supply.

When extracting drinking water from groundwater, but especially from so-called bank filtrate large There is an increasing problem with rivers central treatment in the course of water extraction required water quality both in relation to that in the water solutes as well as in terms of sterility ensure. In particular, the problem of sterility plays in regions with traditional water shortages, such as in the Mediterranean, a significant role so that the simple post-treatment of each on the tap provide available drinking water with the help of a Activated carbon filter is only sufficient if the gefil water is then boiled.

The invention has for its object a device for the treatment of drinking water at the beginning To create kind that allows a flawless reprocessing tied and reliably sterilized drinking water in the immediate vicinity To have available for use.

According to the invention, this object is achieved by that a base is provided on which at least two connected in series with respect to the flow, treatment chambers connected by pipeline are that in the connectable to the water supply Pipeline a controllable check valve is arranged that seen in the direction of flow a first treatment chamber flowed through at least one essentially without pressure Filter chamber is formed and that as a further treatment a substantially non-pressurized flow chamber with an immersed ultra-violet lamp Sterilization chamber is provided. With such a regarding the amount of treatment to the needs of a Household equipment is in the household possible, the necessary for human consumption Treating and disinfecting quantities of drinking water. From What is important here is that the device is designed in this way is that the treatment chambers of the one to be treated Water can be flowed through essentially without pressure. This has the advantage that the piping and the treatment chambers made of light materials, such as plastic, can be made so that for a household appliance required handling is guaranteed. Due to the arrangement of a controllable check valve it is possible to treat the drinking water in make individual batches so that one is sufficient long residence time in the individual treatment chambers is guaranteed. The term "filter" or "filter medium" for the purposes of the present invention includes all means the unwanted solid or contained in the drinking water retain dissolved substances. You can by adsorption  medium, absorbent and / or by ion exchange tel are formed. Accordingly, multiple filters chambers are provided, with a filter chamber with an ion exchanger is filled and one or more further filter chambers with an adsorbent, preferred wise activated carbon, are filled. In the same way it is also possible two different in one filter chamber Arrange filter media fillings, for example an ion exchanger filling and downstream in the flow direction an activated carbon filling. In an appropriate embodiment of the Invention is provided here that the Filtermittelfüllun are arranged interchangeably in the filter chambers.

In an expedient further embodiment of the invention a bypass line is provided for a partial flow of the water to be treated bypassing the supply line the filter chamber filled with ion exchange resin directly connect with the filter chamber filled with adsorbent det. Such an arrangement ensures that with the combined use of ion exchangers desalination and activated carbon for the adsorbent After-treatment of the water, for example for removal of chlorine and any traces of other chemicals still contained lien, a minimum salt content in the water can be maintained can.

In a further advantageous embodiment of the invention provided that the individual filter chambers releasably with are connected to the base. This arrangement has the advantage the filter chambers provided with the filter medium as off to design change parts so that after exhaustion of the Filter means the filter chamber against a new one with fri filter chamber provided can be. In an expedient embodiment here provided that at least the filter chambers at least their inlet opening with an automatically closing one Backflow preventers are provided.  

In a further embodiment of the invention, that at least the filter chambers by a vertical Containers are formed with a cylindrical interior, the with an inlet in the floor area and an outlet in the ceiling area is provided. This arrangement has the advantage that the filter medium is introduced into the interior of the container can be that there is a "marginality" with certainty is avoided. At low feed speed is also guarantees that with an inflow from the bottom up Sufficient contact water in the filter chamber time with the filter media. The drain in the ceiling area can now either be designed as an overflow into the the next treatment chamber opens or else with a pipeline back into the base area leads, so that for the next treatment chamber again the water ascending from the bottom up Flow through treatment chamber.

In an expedient embodiment of the invention is pre see that the respective filter medium filling by separate, the cartridges containing filter medium are formed, which are provided with flow openings, and which against insert the wall of the filter chambers sealed into them are cash. This arrangement has the advantage that the filter middle cartridges can be structurally simple, are cheap to manufacture and, moreover, mechanical and are therefore hygienically packable and one easy handling of the filter media to be replaced possible is.

In a further embodiment of the invention is a switch direction provided via which an actuator on the check valve and a switch for the UV lamp depending on the time speed can be switched from one another. The device according to the invention can be used continuously. Is expedient it, however, if a batch-wise via the switching device Operation takes place, so that with appropriate dimensioning of the  Volume of the last one provided with the UV lamp Remove the chamber of the consumers only as much per withdrawal cycle can, as is contained in the last treatment chamber. The circuit device is designed so that to initiate a withdrawal, first of all the UV lamp is switched on and the content for a predetermined time in the last treatment provided with the UV lamp chamber is exposed to UV light, and thus a Weitge sterility is guaranteed. After this predetermined time opens the check valve, so that too running water that already contained in the filter chamber Amount of water in the sterilization provided with the UV lamp chamber presses and that the removal process then ends is when the quantitative exchange has taken place. This timing is especially important if at least part of the filter medium is formed by activated carbon becomes. The activated carbon dechlorinated due to the proportionate long residence time the water completely, so that a correspondingly long residence time in the sterilization chamber under the influence of the UV lamp any germs in front of one Removal be killed. The mode of operation is more expedient here wise further designed so that over an additional time switching device is ensured that the UV Spotlights only after they have been closed of the check valve is switched off. This ensures that when removing from the filter chamber in the Disinfection chamber water that has surpassed one is exposed to sufficient UV radiation and is reliable Any existing germs have been killed.

Basically, it is possible to use the check valve in the Dimensioning of its passage cross-section in this way stalten that after opening in the filter chamber and set practically no excess pressure in the treatment chamber can, which can be brought about in particular by the fact that the removal opening on the sterilization chamber without shut-off valve is designed so that in the filter chamber and  Sterilization chamber can only build up a pressure that the Strö ent resistance especially of the filter medium speaks. The arrangement of an adjustable pressure reduction valve has the advantage that the device at the local adjusted different pressure in the water supply can be so that about the adjustment of the pressure reduction valve regardless of the pressure in the water supply the required dwell time of the patient to be treated Water as it flows through the device becomes.

A particularly advantageous form for interchangeable filters Tel cartridges is specified in claim 15.

The invention is based on schematic drawings of Embodiments explained in more detail. Show it:

Fig. 1 shows a vertical section through a household appliance

Fig. 2 shows another embodiment for replaceable filter cartridges.

The device shown in Fig. 1 and designed for use in the household in the manner of a food processor has a base S , in the cavity of which a connectable to a water supply line 1 with a controllable check valve 2 and an adjustable pressure reducing valve 3 and a connecting line 4th are arranged. An electrical control circuit 5 is also accommodated in the base, via which an actuator 6 on the shut-off valve 2 and the power supply 7 are switched for a sterilization chamber to be described in more detail below. The switching device 5 can be connected via a feed line 8 to a power supply, for example the normal electrical line network.

On the base S , a filter chamber 9 and a sterilization chamber 10 are arranged as treatment chambers. The filter chamber 9 is in this case connected to the feed line 1 during the disinfection chamber 10 via the tung Verbindungslei 4 communicates with the filter chamber 9 in communication. The sterilization chamber 10 has in its upper area a tap 11 designed as a simple overflow, from which the treated water can be removed.

The filter chamber 9 is formed in the game Ausführungsbei shown that its cylindrical interior has a graduated from bottom to top expanding inner diameter. The lower area 12 , which is assigned to the feed line 1 , is filled with a cartridge 13 which is filled with an ion exchange resin. The adjoining area with a larger diameter is filled with a cartridge 14 , which contains activated carbon as a filter medium. The cartridge 13 and the cartridge 14 are each sealed in their lower region via seals 15 and 16 against the inner wall of the filter chamber 9 .

The two cartridges 13 and 14 are pressed axially with the seals 15 and 16 via a closure cap 17 , which can be screwed in, for example.

The cartridges 13 and 14 are each designed as cylindrical containers, the bottom area 18 and 19 and the ceiling area 20 and 21 of which is sieve-shaped, so that the respective filter medium filling is held securely in the cartridge, but a free passage for the water is ensured . The underlying cartridge 13 can be provided in its overhead area with hakenför shaped approaches 22 which engage axially with the overlying cartridge 14 in the holes in the bottom 19 of the bottom so that when changing the filter cartridges 13 and 14 both cartridges as Unit can be removed. For this purpose, the upper filter cartridge 14 is expediently provided with a small handle 23 , so that when changing the filter cartridges, germination of the interior of the filter chamber 9 is avoided.

The upper edge of the filter chamber 9 is provided with a circumferential collecting channel 25 , through which through holes 26 in the cover 17, the water from the filter chamber 9 can pass into the connecting line 4 .

The sterilization chamber 10 is expediently likewise cylindrical and has an electrical UV lamp 27 projecting vertically from above, which is connected to the electrical power supply via the connecting cable 7 via the switching device 5 . The UV lamp 27 is detachably mounted in a cover 28 , the connection area being protected against contact by a cover cap 29 . The connecting line 4 opens into the sterilization chamber 10 at the bottom, so that the water flows slowly upwards through the sterilization chamber 10 and finally exits the device at the tap 11 .

The switching device 5 is now designed such that when a switch 30 in the electrical feed line 8 is actuated, the UV lamp 27 is first switched on and, via a mechanical or electrical time switching device integrated in the switching device 5 , the actuator 6 of the check valve 2 only after a predetermined time has elapsed Time of, for example, one minute opens, so that only fresh water then flows through the feed line 1 into the Filterkam mer 9 and presses the water contained in the filter chamber 9 into the disinfection chamber 10 and at the same time a corresponding amount of water can be removed here via the tap 11 . Since the fresh water supply to the filter chamber 9 is set to a predetermined flow rate per unit time via the pressure reducing valve 3 , the shut-off valve is then in turn switched over the switching device 5 after a corresponding time which corresponds approximately to the removal time for the amount of water contained in the germination chamber 10 2 closed. In order to sterilize the air flowed into the disinfection chamber 10 volume of water ensures the switching device is designed so that the UV lamp 27 remains also turned on or after closing of the shut-off valve 2 for a predetermined time and then switches off.

In the illustrated embodiment, the cartridge 13 filled with ion exchange resin is provided in its interior with at least one bypass line 31 which completely penetrates the filling, so that part of the water flowing into the filter chamber 9 via the line 1 does not come into contact with the ion exchange resin, but instead flows directly into the cartridge 14 with the activated carbon. In the illustrated embodiment, the Bypasslei device 31 is provided on its upper side with a protruding neck 32 which pierces the perforated bottom when the cartridge 14 is inserted and thus allows a partial flow to enter the activated carbon filling directly.

In the embodiment shown in the drawing, the parts forming the treatment chambers 9 and 10 are integrally connected to the base. In an embodiment, however, it is possible to releasably connect at least the treatment chamber 9 to the base. With such a design, the treatment chamber then takes the place of replaceable cartridges. Here, however, it is necessary to provide the treatment chamber in the inlet area with a self-acting return valve, for example in the form of a return membrane, so that when the treatment chamber is detached from the base, the water filling in the treatment chamber cannot leak.

Fig. 2 shows in a vertical section the design of the filter chamber 9 for another cartridge design. In this embodiment, the mouth 33 of the feed line 1 into the filter chamber 9 has an inwardly directed conical extension 34 . The filter chamber 9 is in turn designed so that it has a slightly smaller diameter in the lower area than the upper area, so that filter cartridges filled with different filter media can be used unmistakably. The filter cartridge 35 has at its lower end a mouthpiece 36 with a conical inner bore, the cone angle of the mouthpiece 36 and the cone angle of the extension 34 being selected such that self-locking occurs when the cartridge 35 is plugged onto the extension 34 and thus a tight connection is guaranteed.

On the cartridge 35 , a cartridge 37 is then inserted in the upper area with a larger diameter, which is provided with a mouthpiece 38 which interacts with a conical extension 39 on the cartridge 35 . The upper attachment 39 on the cartridge 35 is expediently dimensioned differently from the attachment 34 in the bottom region of the filter chamber, so that no exchanges can be made here either. The cartridge 37 then has at its upper end a conical extension 40 which interacts with a correspondingly conical mouthpiece 41 on the cover 17 . In the cover 17 , an outlet channel 42 is incorporated, the line 4 can be connected via a corresponding plug connection.

The gradation of the diameter within the Filterkam mer 9 on the one hand and the use of different diameters for the neck and mouthpiece of the cartridges to be used in the lower chamber area and the cartridges to be used in the upper area ensures that when using ion exchangers as filter media, the cartridges are matched accordingly are assembled and thus it is ensured that the ion exchanger is always arranged in the inlet area of the filter chamber 9 and thus the filter cartridge 37 , which is filled with activated carbon, is always arranged after the ion exchanger. If in individual cases the use of ion exchangers is not necessary or is not wanted, a cartridge of the appropriate size filled with activated carbon can also be used in the lower filter chamber area.

In both filter cartridges, a sieve plate 43 or 44 is arranged in the interior in the entrance area and in the exit area, with which the usually granular filter medium is held.

In this embodiment, too, it is possible to provide a bypass line 31 in the filter cartridge 35 when it is filled with ion exchange resins. For this purpose, the sieve bottom 43 is expediently provided in the inlet region of the filter cartridge 35 in the mouth region of the bypass line 31 with a baffle plate 45 , so that a perfect direct passage of the water to be treated into the subsequent cartridge is ensured. The baffle plate 45 also ensures that the water rising from the bottom to the top is evenly distributed over the entire cartridge cross-section and a uniform consumption of the ion exchanger resin is brought about.

Claims (15)

1. Device for the treatment of drinking water, in particular for use in the household, which can be connected to a water line, characterized in that a base ( S ) is provided on which at least two series-connected in relation to the flow, through pipes ( 4 ) Connected treatment chambers ( 9 , 10 ) are arranged so that a controllable shut-off valve ( 2 ) is arranged in the pipeline ( 1 ) which can be connected to the water supply line, that seen in the direction of flow, a first treatment chamber is formed by at least one filter chamber ( 9 ) through which there is essentially no pressure and that a further treatment chamber is provided with a sterilization chamber ( 10 ) which is flowed through essentially without pressure and is provided with an immersed UV lamp ( 27 ). 2. Device according to claim 1, characterized in that the filter chamber ( 9 ) is provided with at least one interchangeable filter medium filling. 3. Device according to claim 2, characterized in that the filter medium through a pourable adsorption medium, preferably activated carbon, is formed. 4. Device according to claim 2 or 3, characterized in that the filter medium is formed by an ion exchange resin becomes. 5. Device according to one of claims 1 to 4, characterized characterized in that the filter chamber with the filter medium serving ion exchange resin seen in the flow direction, in front of the filter chamber with the serving as filter medium Adsorbent is arranged. 6. Device according to claim 5, characterized in that a bypass line ( 31 ) is provided which connects the supply line ( 1 ) for a partial flow of the water to be treated bypassing the filter chamber filled with ion exchange resin directly with the filter chamber filled with adsorbent. 7. Device according to one of claims 1 to 6, characterized in that at least the filter chamber ( 9 ) is detachably connected to the base ( S ). 8. Device according to one of claims 1 to 7, characterized in that at least the filter chamber ( 9 ) is provided at least at its inlet opening with an automatically closing backflow preventer. 9. Device according to one of claims 1 to 8, characterized in that at least the filter chamber ( 9 ) is formed by a vertical container with a cylindrical interior, which is provided with an inlet in the floor area and an outlet in the ceiling area. 10. The device according to claim 9, characterized in that the respective filter medium fillings are formed by separate cartridges ( 13 , 14 ) containing the filter medium, which are preferably provided with sieve-like through openings and which can be used sealed against the wall of the filter chamber ( 9 ) are. 11. Device according to one of claims 1 to 10, characterized in that a switching device ( 5 ) is provided, via which an actuator ( 6 ) on the shut-off valve ( 2 ) and a switch for the UV lamp ( 27 ) in time as a function of time are switchable from each other. 12. The device according to claim 11, characterized in that the switching device ( 5 ) is connected to a time switching device and is designed so that the switch of the UV lamp ( 27 ) only switches off after the shut-off valve ( 82 ) has closed. 13. Device according to one of claims 1 to 12, characterized in that the switching device ( 5 ) is designed such that to initiate water removal, the UV lamp ( 27 ) first switches on and then opens the check valve ( 2 ) with a time delay. 14. Device according to one of claims 1 to 13, characterized in that the check valve ( 2 ) is assigned a preferably adjustable pressure reducing valve ( 3 ). 15. Device according to one of claims 1 to 14, characterized in that the filter means are contained in replacement cartridges ( 35 , 37 ) which in the entry area with a mouthpiece ( 36 , 38 ) with a conical inner bore and in the exit area with a shoulder ( 39 , 40 ) are provided, which has a conical outer surface and that each of the inlet opening and the outlet opening is covered with a sieve bottom ( 43 , 44 ).