DE29709869U1 - Water treatment device - Google Patents

Description

Patent attorney Karl Olrrjcht .··..« ..«*»*. Am Weinberg 15

Diploma in physics, state-certified ^be^^^? ¹ *' I ··**··*·»! .' D-35096 Niederweimar

European Patent Attorney *" '* ·· ·· *** * Telephone· (&Oacgr;6421&Iacgr; 7 86

Fax: (06421) 71

03.06.1997 G 826 - Ot/Kr

Perspektiva GmbH, RU-141980 Dubna 3, Moscow region (Russia)

Water treatment device Description

The present invention relates to a device for treating water according to the preamble of claim 1. It can be used in particular for producing drinking water.

A comparable device is known from EP 0 175 123 B1. It uses a polarization-reversible electrochemical cell with plate-shaped electrodes for water circulation, particularly for use in dentistry, between which a plastic membrane separates an anolyte chamber and a catholyte chamber. These are connected by a channel and can be partially or completely filled with turbulence agents, for example with sintered materials, nets, grids, etc., which cause a high flow resistance and a correspondingly small or slow water throughput.

An electrochemical cell described in Swiss Patent 654 559 can be operated with direct current with reversible polarity and superimposed low-frequency alternating current in order to counteract calcification of the pipes. A concentric arrangement of electrodes with a porous tube in between creates separate cylindrical chambers between which a gradient of pH values can be maintained. A sensor located behind a filter on the downstream side detects whether water is flowing or not.

Conventional devices often require considerable design and manufacturing effort. They generally work relatively slowly, i.e. with a low volume throughput. Another disadvantage is that the removal of the electrode protective layer is often not detectable or can only be detected with great effort. However, if the treated water is ionized or contaminated, e.g. by overflowing anode material, the intended cleaning effect can at least be impaired or even nullified.

It is an important aim of the invention to remedy this and to create a simply constructed device that enables long-term defined or controlled water treatment. Furthermore, an operational fault, e.g. due to electrode wear, should be able to be displayed automatically.

Essential features of the invention are specified in claim 1. Embodiments are the subject of claims 2 to 10.

In a device for treating water, with a housing that has inlets and outlets and, on or near its front sides, holders for at least one electrochemical cell that is provided with electrical connections and consists of a concentric arrangement of electrodes with a partition, membrane or the like located between them, the invention according to claim 1 provides that the concentric electrode arrangement consists of an outer tubular electrode, a ceramic diaphragm and an inner tubular electrode and that, at a distance from the latter, there is a recess at a lower end of the housing and in this recess a contactor is arranged that is conductively connected to a signaling system. The device is extremely simple in construction and can therefore be manufactured and assembled in a very economical manner. In addition, maintenance and servicing are possible at any time and extremely conveniently. The contactor in the recess causes a signal to be given and/or a shutdown as soon as an operational fault occurs, e.g. as a result of electrode wear.

In terms of construction, it is advantageous if the recess according to claim 2 is designed as a trough body attached close to a lower holder. Alternatively, the recess according to claim 3 can be formed by an insulating material trough that can be attached to a housing part or a carrier.

For the contactor, it is expedient if, in accordance with claim 4, there are two bare contacts separated from one another by a distance in the recess, preferably corrosion-resistant metallic conductors. According to claim 5, the contactor can sit on a base plate which supports or forms the trough body or the insulating material trough with the contacts located therein.

According to claim 6, the lower end of the inner electrode is advantageously located directly opposite the contactor at a short axial distance, so that small amounts of liquid are sufficient to bridge the contacts and thus actuate the contactor.

According to claim 7, the inner electrode is hollow over its entire length, so that a leak occurring at any point leads to the flow of penetrating liquid which causes the contact to be made.

In terms of construction, it is particularly simple if the holders according to claim 8 are designed as non-conductive bushings that are rigidly or detachably connected to the housing and have flow connections to the inlet and outlet. The holders according to claim 9 are preferably designed as plastic blocks with internal stepped bores that accommodate the concentric electrode arrangement in a form-fitting manner. This structure can be manufactured precisely with particularly little effort, which at the same time ensures reliable assembly. The development of claim 10 is advantageous in this case, according to which the holders have sealing rings for the concentric electrode arrangement or for the flow connection.

Further features, details and advantages of the invention will become apparent from the following description of embodiments based on the drawings. In these:

Fig. 1 is a schematic side sectional view of the inventive

Contraption,

Fig. 2 is a sectional view along the line H-II in Fig. 1,

Fig. 3 is an enlarged partial sectional view of a lower device

Section and

Fig. 4 is a sectional view taken along line IV-IV in Fig. 4.

The device shown in Figures 1 and 2 is designated overall by 10. It has a housing 12 with inlets 13 and outlets 14 for the supply and discharge of water. The housing 12 is closed at the bottom by a base plate 15 and at the top by a cover 16. A lower holder 23 and an upper holder 24 are attached therein by means of a holder plate 32, in which electrochemical cells 20 are mounted.

Each cell 20 consists of a concentric arrangement of tubes, namely an outer tube electrode 26, a ceramic membrane or a separating tube 28 and an inner tube electrode 30. The holders 23, 24 are designed as plastic blocks and are provided with stepped bores 35 to 38 in which the lower and upper ends of the concentric tubes 26, 28, 30 are positively seated. For sealing, sealing rings 33 are also present at at least two step ends. Screw connections 39 secure the tube arrangement to the lower and upper holders 23, 24. The two holders each connect directly to a carrier 22, with transitions to flow connections 43, 44 in the form of radial bores being sealed by further sealing rings 34.

In the lower housing area or end 17, the end of the inner tube electrode 30 is opposite a trough or basin 25, which can also be designed as a depression in the base plate 15 and contains a contactor 40. The axial distance a is chosen to be so small that even small amounts of water that enter the inner electrode 30 and flow downwards immediately cause a contact closure that controls a display and/or switching arrangement (not shown). The contactor 40 preferably consists of two bare contacts or conductors that are conductively connected to a signaling system (not shown). If, for example, an electrode protective layer, which can consist of titanium, is eventually perforated at certain points during long-term operation, material is quickly removed, forming holes in the electrode, so that water can pass through. The resulting contact causes the signal or switching arrangement to be triggered immediately. This indicates a malfunction and preferably switches off the power supply immediately.

The invention is not limited to the embodiments described; rather, numerous modifications are possible. However, it can be seen that a preferred embodiment of a device 10 for treating water in a housing 12 with inlets and outlets 13, 14 has holders 23, 24 near the end faces for at least one electrochemical cell 20, which is provided with electrical connections and consists of a concentric electrode arrangement with an outer tubular electrode 26, a ceramic diaphragm 28 and an inner tubular electrode 30, at a short distance a from the latter there is a recess 25 at a lower housing end 13 and in this a contactor 40 is arranged, which is conductively connected to a signaling system. The recess 25 can be a trough body attached near the lower holder 23 or an insulating material trough that can be attached to a housing part or a carrier 22 and can contain two bare contacts separated by a distance from each other, preferably corrosion-resistant metallic conductors. Alternatively, the contactor 40 can sit on a base plate 15. The holders 23, 24 are non-conductive sockets that are rigidly or detachably connected to the housing 12 and are fluidly connected to the inlets and outlets 14, 18. Preferably, the holders 23, 24 are designed as plastic blocks with internal stepped bores 35 to 38, which receive the concentric electrode arrangement 26, 28, 30 in a form-fitting manner and are provided with sealing rings 33, 34 for the concentric electrode arrangement 26, 28, 30 or for the flow connections 43, 44.

All features and advantages arising from the claims, the description and the drawing, including structural details and spatial arrangements, can be essential to the invention both individually and in a wide variety of combinations.

List of reference symbols

a Axial distance 10 contraption 12 Housing 13 Inlet 14 Outlet 15 Base plate 16 Lid 17 lower end 20 electrochemical cell 22 carrier 23 lower bracket 24 upper bracket 25 depression / trough / tub 26 outer tube electrode 28 Membrane / separator tube / diaphragm 30 inner tube electrode 32 Mounting plate 33,34 Sealing rings 35 to 38 Stepped holes 39 Screw connections 40 Contactor 43.44 Flow connections / radial bores

Claims (10)

Protection claims 1. Device (10) for treating water, with a housing (12) which has inlets and outlets (13; 14) and, on or near its end faces, holders (23, 24) for at least one electrochemical cell (20), which is provided with electrical connections and consists of a concentric arrangement of electrodes (26, 30) with a partition wall, membrane or the like (28) located therebetween, characterized in that the concentric electrode arrangement consists of an outer tubular electrode (26), a ceramic diaphragm (28) and an inner tubular electrode (30) and that at a distance from the latter at a lower housing end (17) there is a recess (25) and in this recess a contactor (40) is arranged which is conductively connected to a signaling system. 2. Device according to claim 1, characterized in that the recess (25) is designed as a trough body mounted near a lower holder (23). 3. Device according to claim 1 or 2, characterized in that the recess (25) is formed by an insulating trough that can be fastened to a housing part or a carrier (22). 4. Device according to one of claims 1 to 3, characterized in that in the recess (25) there are two bare contacts separated from each other by a distance, preferably corrosion-resistant metallic conductors. 5. Device according to one of claims 1 to 4, characterized in that the contactor (40) sits on a base plate (15). 6. Device according to one of claims 1 to 5, characterized in that the lower end of the inner electrode (30) is directly opposite the contactor (40) at a short axial distance (a). 7. Device according to one of claims 1 to 6, characterized in that the inner electrode (30) is hollow over its entire length. 8. Device according to one of claims 1 to 7, characterized in that the holders (23, 24) are designed as non-conductive bushings which are rigidly or detachably connected to the housing (12) and which have flow connections (43, 44) to the inlets and outlets (13, 14). 9. Device according to one of claims 1 to 8, characterized in that the holders (23, 24) are designed as plastic blocks with internal stepped bores (35 to 38) which receive the concentric electrode arrangement (26, 28, 30) in a form-fitting manner. 10. Device according to claim 8 or 9, characterized in that the holders (23, 24) have sealing rings (33, 34) for the concentric electrode arrangement (26, 28, 20) or for the flow connection (43, 44).