EP1487749A1

EP1487749A1 - Device for treating water

Info

Publication number: EP1487749A1
Application number: EP03714818A
Authority: EP
Inventors: Ludwig Bartl; Andrew Cookson; Karel Stefka
Original assignee: Rev22 AG
Current assignee: Rev22 AG
Priority date: 2002-03-13
Filing date: 2003-03-13
Publication date: 2004-12-22
Also published as: JP3836845B2; IL163716A0; AU2003219049A1; CZ20041029A3; US20050161333A1; DE20204084U1; JP2005519740A; CA2477134A1; US7306725B2; MXPA04008763A; ZA200406966B; WO2003076347A1; PL374351A1

Abstract

The invention relates to a device for antibacterially treating, in particular, decontaminating and/or sterilizing water and for killing microorganisms in water. Said device is designed for interacting with a container (10) provided for holding a quantity of water (20) to be treated. The device has an electrode arrangement (24), which is disposed for acting upon the quantity of water inside the container and which can be connected to and operated with an electrical signal generating device. The device additionally comprises a discoid housing (16), which is preferably provided inside the container in a manner that enables it to be detached or removed. The electrode arrangement (24) is provided on at least one flat outer side (22) of the housing, and the electrical signal generating device is provided inside the housing.

Description

Device for treating water

The present invention relates to a device for treating water according to the preamble of the main claim.

Devices of this type, in particular for the treatment of water by decontamination or sterilization, are generally known from the prior art, both mechanical filter-based solutions and those based on the targeted introduction of electrical pulses or signals into contaminated water to achieve the desired treatment or cleaning effect.

For example, WO 01/55035 A2 by the applicant discloses a generic device which is suitable for extremely flexible use and handling, even in remote application environments, due to the effective signal application of the water to be cleaned and the inherent portability of the system.

However, even in the practical use of this known device, there was a need for an even more flexible use, in particular also against the background of a possible use of the described decontamination principle in changing containers containing the contaminated water. In addition, the production of the device known from WO 01/55035 A2 is complex and is therefore only suitable to a limited extent for large series production (which is very desirable due to the performance of the system), with correspondingly reduced costs and selling prices.

The object of the present invention is therefore to provide a generic device for the antibacterial treatment of water with a view to a more universal usability, also in connection with different, changing containers for the water, as well as to improve a more efficient, potentially better mass production capability.

The object is achieved by the device with the features of the main claim; Advantageous developments of the invention are described in the subordinate claims.

In an advantageous manner according to the invention, the present invention uses the flat, disk-shaped housing for the first time to produce a module solution which realizes the basic idea already known from WO 01/55035, the disk-shaped housing according to the invention not only making it possible (interchangeable) to be used for different containers, but also due to the manufacturing properties described in accordance with the further development, it is favorable for very largely automated, large-scale production.

In an advantageous manner according to the invention, namely, the disk-shaped housing, on the one hand, makes it possible to offer an effective electrode surface for the electrode arrangement on an areal outside of the housing in an extremely efficient manner, while at the same time the interior of the housing offers the receiving space necessary for the electrical signal generating device or the associated electronics.

It is both encompassed by the invention that the disk-shaped housing as a component or (bottom) module of a cup, jug or the like. To use container for (drinking) water, more preferably designed to be removable, the bottom of this container then being formed by the flat outside with the electrode arrangement formed thereon. Alternatively, it is encompassed by the invention and a preferred embodiment to fix the disk-shaped housing immersed in the container by means of the holding device provided in such a way that the amount of water is preferably both flat outer sides. around the housing (optionally provided with electrodes of the electrode arrangement), so that in this way an optimization between the effective outer surface of the housing required for the application of the electrodes and the smallest possible housing for the present invention can be achieved.

In the context of this development, it is also particularly preferred to design the (rod-shaped) holding device in such a way that supply voltage or control signals for the electrical signal generating device, which are necessary at the same time, can be supplied via the holding device. The assembly effort can then be simplified in a preferred manner, in particular when the bores on the container, which may already be present anyway, can be used for the holding device, or only one bore would then be sufficient for fastening. It is also particularly preferred to design the holding device in such a way that a holding and penetration depth of the housing into the container and thus into the amount of water can be set.

In a particularly favorable and therefore preferred manner in terms of production technology, it is provided in accordance with a further development to design the electrode arrangement with the aid of a platinum-containing material (although other electrode materials are also suitable within the scope of the invention), production technologies which are otherwise known to be assumed here, for example the application of an electrode pattern by screen printing or the like., have been found to be favorable. From the point of view of production technology, it is also preferred to carry out the electrode arrangement on a pane coated with ceramic (or consisting of ceramic), in particular metallic disks and then provided with a ceramic coating being a favorable support. A typical electrode width is in the range between 0.2 mm and 5 mm, the thickness then depending on the chosen manufacturing technology, e.g. B. screen printing. The term “strip-like” implies in the context of the invention not only an elongated or linear electrode shape, in particular electrodes of the present invention are also included in the form of a circular arc or a spiral.

It is also within the scope of the present invention to further develop the electrode arrangement by means of the additional dechlorination electrode for dechlorinating the amount of water to be treated (or already treated). In practice, the application of the electrode arrangement for decontamination leads to the release of chlorine in water containing chloride, which in turn affects the water quality. However, if a dechlorination electrode comprising magnesium, zinc or calcium or their alloys in particular is provided in the manner provided for in the further development and is appropriately controlled approximately in the manner specified in the subclaims, dechlorination can take place advantageously and the chlorine in the water instead replaced by ions such as magnesium, zinc or calcium that are more useful for human consumption; The advantageous side effect achieved by this development of the invention then consists in the planned enrichment of the treated water with these elements.

While the provision of a dechlorination electrode in addition to the electrode arrangement (intended for decontamination) is a preferred embodiment of the invention, it is within the scope of the invention to also implement the electrode arrangement according to the invention by the dechlorination electrode, in which case the electrical signal generating device according to the invention is suitable for the dechlorination signals provided; in this embodiment of the invention, no other decontamination would take place, with the exception of dechlorination. It is also within the scope of the present invention to provide the container with further units which allow additional treatment steps of the water. On the one hand, the present invention also includes providing suitable heating or cooling agents in the interior of the container in such a way that an additional, controlled temperature influence on the water to be treated or treated can be carried out.

On the other hand, it is within the scope of the present invention to provide a filter unit which acts mechanically and in particular as a disposable filter, particularly in the area of the pouring of the container or in the manner of a bag (analogous to the idea of a portioned tea bag). Such a (disposable) filter unit suitably consists of a defined matrix of a porous material (a flow or foam is suitable here), on which absorption material (suitable is activated carbon, zeolite or the like) is provided, possibly also an ion exchange material ( e.g. a Purolit for eliminating nitrates). Different variants are possible here, depending on the intended cleaning purpose, such as wetting the disposable filter with magnesium, covering it with particle catcher material or the like.

As a result, the present invention achieves the task on which the present invention is based in an extremely simple, elegant and easy to implement manner, namely to create a universally applicable, easily exchangeable, efficient and inexpensive to manufacture device with which the antibacterial can be used in a very universal manner Water treatment is possible.

Accordingly, the fields of application for the present invention are almost unlimited. In addition to the use of the invention in the context of drinking water or comparable liquid containers, it is therefore appropriate to use the available to use the invention in connection with a cistern for drinking water (such as mobile homes, caravans, boats, etc.), for a tank for process water (shower and bath water), or for any industrial plant (here the present invention was successfully used for plants) for ice or soda water production, for air conditioning systems, in connection with laser cooling devices, where the focus was on algae control, with the disinfection of swimming pool water or the sterilization of instruments, tested). The signal generating device is then set to the appropriate cleaning parameters, and, especially when used with standardized tanks, the diameter of the disk-shaped housing according to the invention is suitably adapted to a cleaning opening of the respective container.

Further advantages, features and details of the invention emerge from the following description of preferred exemplary embodiments and with reference to the drawings; these show in

1 shows a longitudinal section through a closed water jug as a container with a disc-shaped housing detachably inserted on the bottom according to a first preferred embodiment of the invention;

2: a variant of the realization form according to FIG. 1 with an alternative container as an open jug and a disk-shaped housing provided on the bottom for receiving the electrode arrangement and

3: a second embodiment of the present invention with a disk-shaped housing which is suspended on a holding device in the container.

As can be seen in FIG. 1, a can 10 as a container for holding a quantity of water consists of an upper can part 12 and a bottom part 14, which can be connected to one another in an otherwise known manner.

Between the parts 12 and 14, a cylindrical, flat (disk-shaped) housing 16 is held in a clamping and detachable manner, which has an electrode arrangement 24 on its flat outer surface 22 exposed to the interior 20 of the can, which is formed in a strip from a platinum material. In the embodiment shown, the outer surface 22 forms the bottom of the container interior 20 with the electrode arrangement 24.

In the middle of the housing 16 (not shown) is an electronic system for the electrical associated with the electrode arrangement 24. Fresh signal generating device is provided, this device generating electrical control signals for operating the electrode arrangement 24 in an antibacterial or decontamination operation, in particular in the manner known from WO 01/55035 A2 (this publication is to be considered as part of the invention in the present application) ,

At the bottom, the cylindrical housing 16 is open to an opening 26, this opening 26 being formed by an annular flange-like housing extension 28 with an internal thread.

In a particularly suitable manner, the housing, which typically has a diameter of approximately 100 mm and an effective housing height of approximately 20 mm and is made of a suitably moldable plastic, is coated in the region of a surface 22 with a ceramic layer, which is then in turn coated the electrode arrangement 24 is applied, for example by an otherwise known screen printing method with platinum-containing material.

FIG. 2 only illustrates another housing variant compared to the arrangement in FIG. 1, the realization and construction of the disk-shaped housing 16 that realizes the antibacterial treatment is equivalent.

Another implementation form as a second embodiment is shown in FIG. 3. Here, the housing 16 is suspended by a hollow cylindrical holding device 30, which engages with an external thread in the shoulder 28 of the housing, and which is held at the other end via external thread sections 32 and a pair of nuts 34 in a cover surface 36 of a container 38 that the schematically indicated amount of water flows around the container 38 on both flat sides.

While the embodiment shown in FIG. 3, analogous to the embodiment according to FIGS. 1, 2, only on one 3 has the electrode arrangement 24, it is possible in particular in the implementation of FIG. 3 and also encompassed by the invention to also provide the further outer surfaces, in particular the opposite outer surface 40 on the attachment side, with an electrode arrangement, in which case, if appropriate, in FIG A via can be made at the edge area.

Due to the hollow cylindrical inner shape, the holding device 30 also offers the possibility in a simple manner of supplying the electronics accommodated in the interior of the housing 38 with supply voltage and / or external control signals.

The present invention is not limited to the described embodiments or manufacturing possibilities for the implementation. Not only is the possible material for the electrode arrangement and its shape, depending on the area of use, to be selected appropriately, provision is also made for 16 or 38 further electrode surfaces in the region of the electrode arrangement or on other suitable water contact surfaces of the housing, in particular for (separate) dechlorination To provide water enrichment with useful ions such as magnesium, zinc, calcium or the like.

Also, the disk-shaped housing shown is not limited to the cylindrical shape; rather, it lends itself and is also encompassed by the invention, in particular depending on a container to be used in each case, also other circumferential contours, e.g. B. rectangular to use for the disc-shaped housing. In addition, not shown in the figures, the container can be provided with numerous other units and functional units, including filter units, heating or cooling elements or the like.

As a result, the present invention enables a device in a surprisingly simple and flexible manner To create for water decontamination, which is not only easy and flexible to use and replace, while optimizing the space requirement and the effective entry areas for the electrical signals in the water to be cleaned, the present invention also offers numerous efficiency potentials, as exemplified in the figures for improved and therefore more efficient producibility.

Claims

EXPECTATIONS

Device for antibacterial treatment, in particular decontamination and / or sterilization of water and for killing microorganisms in water, which is designed to interact with a container (10) designed to hold a quantity of water (20) intended for treatment and one to act upon the quantity of water in the Has container-arranged electrode arrangement (24) which can be connected and operated with an electrical signal generating device, characterized in that the device has a disk-shaped housing (16), which is preferably provided detachably or removably in the container, on at least one flat outside (22) of the housing has the electrode arrangement (24) and inside the housing the electrical signal generating device.

Apparatus according to claim 1, characterized in that the container is designed as a cup-shaped or can-shaped liquid container (10) and the housing (16) is provided on the bottom side in the liquid container such that the flat outside (22) forms a base which is effective for the amount of water.

Apparatus according to claim 1, characterized in that the housing is assigned a holding device (30) for the releasable fastening of the housing (16) in the container, which is designed such that when the container is filled, both flat outer sides (22, 40) of the housing lying opposite one another Have contact with the amount of water.

Device according to claim 3, characterized in that the holding device (30) is rod-shaped and for against the water-protected supply of supply voltage or control signals from an external unit to the signal generating device is formed.

5. The device according to claim 3 or 4, characterized in that the holding device (30) for a change of an immersion position of the housing in the amount of water is formed adjustable in height.

6. Device according to one of claims 1 to 5, characterized in that the electrode arrangement (24) comprises a material which consists of the group consisting of a stainless steel alloy or Fe-Si alloy, Mg-Zn-Ca alloy, gold , Silver, palladium, platinum, titanium, carbon, graphite, a semiconductor material, a conductive plastic or glass material is selected and preferably has platinum, the electrode width or thickness of the more preferably strip-shaped electrode arrangement being between 0.2 mm and 5 mm.

7. The device according to claim 6, characterized in that the electrode arrangement is elongated-linear, arc-shaped or spiral-shaped, flat or vertical or as one or more pins.

8. The device according to claim 6 or 7, characterized in that the electrode arrangement is formed on a flat side of a plastic, Teflon, glass, aluminum oxide or ceramic, in particular a ceramic coating, having disc element, preferably the opposite side of the flat side for attachment is formed by electronic components of the electrical signal generating device.

9. Device according to one of claims 1 to 8, characterized in that the electrical signal generating device can be operated with low voltage and for generating an electrical alternating signal between electrodes of the electrode arrangement with a maximum amplitude <50 V and a signal frequency in the range between 1 and 500 kHz, in particular 5 up to 50 kHz, the signal generating device having setting means which are designed to automatically change a maximum amplitude, an amplitude swing and / or a signal / pause ratio of the alternating signal, depending on a conductance of the amount of water, preferably means for short-circuiting the electrodes are provided during a break in the electrical alternating signal.

10. Device according to one of claims 1 to 9, characterized in that the electrode arrangement additionally has a dechlorination of the amount of water causing dechlorination electrode and / or an ion enrichment electrode for Mg, Zn, Ca or Ag, or the electrode arrangement is designed as a dechlorination electrode.

11. The device according to claim 10, characterized in that the dechlorination electrode comprises an alloy comprising Mg, Zn or Ca, or an alloy comprising Fe, Zn, Fe-Cr-Ni.

12. The device according to claim 10 or 11, characterized in that control means for the dechlorination electrode as an anode as a unit of the electrical signal generating device for generating a voltage between 2 V and 24 V, in particular 12 V, and a current between 5 and 100 A, in particular 20 mA are provided and designed in the housing such that they are preferably at regular intervals before or after a signal is applied to the electrode arrangement perform a dechlorination operation of the amount of water in the tank by, or independently of, the signal generating device.

13. Device according to one of claims 1 to 12, characterized in that the disc-shaped housing (16) has a circular or rectangular shape based on the flat outside with a diameter in the range between 35 mm and 150 mm, in particular 70 mm to 100 mm, in the case of the electrode arrangement provided on only one flat outer side and 40 mm to 60 mm in the case of the electrode arrangement provided on both flat outer sides.

14. Device according to one of claims 1 to 13, characterized by a mechanically acting filter unit connected upstream of a container inlet of the container and / or assigned to a container outlet of the container.

15. The device according to claim 14, characterized in that the filter unit is designed as a disposable filter, has a defined matrix made of a porous material, in particular flow or foam, and on the matrix absorbent, in particular activated carbon or zeolite, and / or an ion exchange agent, Tartaric or citric acid are applied.

16. The device according to one of claims 1 to 15, characterized in that the container heating and / or coolant are assigned to the targeted change of a water temperature of the amount of water.

17. Device according to one of claims 1 to 16, characterized in that the disc-shaped housing for insertion in or with a cistern for drinking water, a tank for industrial water or one a water tank is designed for industrial use.