WO2008011873A1 - Apparatus for utilizing water - Google Patents

Abstract

The invention relates to an apparatus (1) for utilizing water (W), for example an atomizer or evaporator (2), having at least one tank (9) for water (W). In order to increase the water quality, two ceramic electrodes (10) are arranged in the tank (9) in order to treat the water (W).

Description

"Device for using water"

The invention relates to a device according to the preamble of claim 1.

From JP 10281502 A a device for the use of water is known, which is designed as a nebulizer and has two containers for water. Here, the second container, from which the water is atomized, fed by the first container. Chlorine-producing electrodes made of platinum and iridium are arranged in the first container for sterilizing the water. A disadvantage of such a device for the use of water on the one hand, the escape of unpleasant-smelling chlorine gas and on the other hand, a possibly insufficient sterilization of the water, if this is stored for a long time before misting in the second container, which is arranged downstream of the first container. Furthermore, oxidizing substances are required, which lead to undesirable deposits in the container.

The invention has for its object to develop a device for the use of water, which with respect to a bacterial has increased security, which produces no unpleasant-smelling gases and no oxidizing substances needed. This object is achieved on the basis of the features of the preamble of claim 1 by the characterizing features of claim 1. In the dependent claims advantageous and expedient developments are given.

The device according to the invention for the use of water has two ceramic electrodes, which serve to increase the water quality in the container, from which water is directly removable or water is directly consumable. By using ceramic electrodes, no oxidizing substances are needed and only oxygen is produced during operation, through which no odor nuisance is perceived. The arrangement of the ceramic electrodes in the container, from which directly taken water or water is consumed directly, a water storage is avoided, which is located between the place of treatment and the place of removal or consumption of water. The core of the invention is thus the use of ceramic electrodes and their positioning in the container, from which the water is removed or consumed. This results in comparison with the prior art, a reduced risk of contamination after treatment of the water and an environmentally friendly and odorless water treatment.

According to the invention, the use of two electrically conductive ceramic electrodes is provided, which are connected to a DC power source. As a result, catalytic processes of oxygen radical formation take place under electric voltage, by means of which an oxidation of the biological compounds in the water and in particular a destruction of the cell membranes is triggered.

Furthermore, the invention provides to perform a pole reversal on the ceramic electrodes at certain time intervals. ^■ This ^causes the location of oxygen radical formation to become intermediate shifted to the electrodes and achieved a uniform wear of both ceramic electrodes.

According to the invention, it is provided to provide a voltage between 2 V and 50 V and in particular approximately 24 V to 30 V through the DC power source. With such values, good sterilization results can be achieved.

Furthermore, the invention provides, the pole reversal every 2 minutes to 20 minutes and in particular to perform about every 5 minutes. With such values, a good compromise between the specification of a uniform wear of the ceramic electrodes and the requirement to use as little treatment time for the start of the catalytic processes can be achieved.

The invention provides to limit the current flow to a maximum of 100 mA. As a result, the operating costs can be kept low.

Finally, the invention provides for the water treated with the ceramic electrodes to be passed through a filter before it is taken off or before it is consumed. As a result, lime deposits, which are caused by a caused by the ceramic electrodes descaling can be retained by simple means.

For the purposes of the invention, a treatment of the water in the container means a sterilization and / or decalcification of the water.

Further details of the invention are described in the drawing with reference to schematically illustrated embodiments. Hereby shows:

Figure Ia: a first device according to the invention in a sectional side view;

FIG. 1 b: a top view of the lower part of the device shown in FIG. 1 a;

Figure 2 is a schematic view of a second device according to the invention and

Figure 3: a plan view of a third device according to the invention in a schematic representation.

FIG. 1 a shows a device 1 according to the invention for utilizing water W in a sectional side view. The device 1 is designed as a vaporizer 2, with which the water W is vaporizable to increase humidity in an environment U by means of cold evaporation. In principle, the device 1 is based on a device described in DE 44 14 045 A1 for the treatment of gases. The device 1 consists essentially of an upper part 3 and a lower part 4. In the upper part 3, a fan 5 and a drive β for the rotatably mounted in the lower part 4 rollers 7 and 8 are arranged. The lower part 4 forms a container, 9 for the water W. The container 9 is filled to a level N with water. To evaporate the water W, the rollers 7 and 8 rotate slowly in the water W and are thereby driven by the drive 6. Furthermore, the fan 5 blows ambient air over the rollers 7 and 8, the humidity of which increases when the rolls 7 and 8 are overstitched. In the container 9, two ceramic electrodes 10 and 11 are arranged (see also Figure Ib). As can be seen from FIG. 1 b, the two ceramic electrodes 10, 11 are connected to a direct current source 12. Between the DC power source 12 and the electrodes 10, 11 is still an electronics 13 connected, which regulates the flow of current and makes a pole reversal at predetermined time intervals. The electronics 13 is connected to the electrodes 10 and 11 via electrical lines L10 and L11. The DC power source 12 supplies the electronics via lines L12. The electrodes 10, 11, the DC power source 12 and the electronics 13 are combined in a housing 14 as a module 15, which is attachable to a container 16 forming the well 16. The housing 14 is closed in the figure Ia and shown in the figure Ib with the cover 17 removed.

2 shows a second device V according to the invention for the use of water W in a schematic side view. The device 1 is designed as a nebuliser 18, with which the water W in an environment ü nebulizable or sprayable. For the nebulization, the device 1 in a container 9, a vibrating plate 19, which is excited by an electronics 20 to vibrate. This results in a water cone WK of the finest water droplets on the vibrating plate 19. These are blown out of the device 1 into the environment U by means of a ventilator 21. In the container 9, two ceramic electrodes 10, 11 are further arranged, which are connected with the interposition of the electronics 20 to a positive pole 26 and a negative pole 27 of a DC power source 12. The electronics 20 regulates a current flow and performs a pole reversal at the electrodes 10, 11 at predetermined intervals. Consequently, they work alternately as anode 24 and as cathode 25. Lime deposits K, which form in the water W as a result of the activity of the ceramic electrodes 10, 11, are prevented by a filter 22 from the oscillating disk 19. An impairment of the function of the vibrating plate 19 through the calcium deposits K is thus prevented. FIG. 3 shows a plan view of a third device 1 according to the invention, which corresponds in its mode of operation to the device shown in FIG. The device 1 comprises a container B, which is formed from a non-conductive material 23, such as plastic. The container B with a total volume V is divided by a filter 22 into a first part container Bl having a volume V1 and a second part container B2 having a volume V2. In the first part container Bl two electrodes 10, 11 are arranged, which are connected to a power source, not shown. The electrodes 10, 11 are alternately connected to a positive pole and a negative pole of the power source and thus alternately form an anode 24 and a cathode 25. Through the electrodes 10, 11 water W is treated in the first part container Bl and flows through the filter 22 in the second sub-container B2. In the second sub-tank B2, the water W is atomized by a vibrating disk 19.

The invention is not limited to illustrated or described embodiments. Rather, it comprises developments of the invention in the context of

Patent claims. In particular, the invention also provides that the device is designed to use water as a coffee machine, tea machine or drinking water dispenser. List of reference numbers:

1 device for using water

2 evaporators

3 top of 2

4 lower part of 2

5 fan of 2

6 drive for 7 and 8

7 roller

8 roller

9 containers

10 electrode made of ceramic or oxide ceramics

11 Ceramic or oxide ceramic electrode

12 DC power source

13 electronics

14 housing

15 module

16 tub

17 lids of 14

18 nebulizers

19 swinging disk of 18

20 electronics

21 fan

22 filters

23 non-conductive material

24 anodes

25 cathode

26 positive pole

27 negative pole

B container

Bl, B2 first or second part container

K limescale

LlO pipe

LIl line

L12 line U surroundings of 1

V, Vl, V2 volume of B, Bl, B2

W water

WK water cone

Claims

Claims :

1. Device (1) for the treatment of water (W) in particular for a nebulizer (18) or a vaporizer (2), characterized in that the device (1) ^' a first electrode (10) made of ceramic and a second electrode ( 11) of ceramic, wherein the two electrodes (10,11) are arranged in a container (B), wherein the container (B) consists of a non-conductive material (23) and wherein the electrodes (10, 11) alternately as Anode (24) and as a cathode (25) to a positive pole (26) or to a negative pole (27) of a power source (12) can be applied.

2 Apparatus according to claim 1, characterized in that the ceramic of the first and / or the second electrode (10, 11) is an oxide ceramic.

3. Device according to one of the preceding claims, characterized in that the ceramic for the first and / or the second electrode (10, 11) is titanium oxide.

4. Device according to one of the preceding claims, characterized in that the current source (12) has a voltage between 2 V and 50 V and in particular about 24 V to 30 V.

5. Device according to one of the preceding claims, characterized in that a ^' pole reversal takes place every 2 minutes to 20 minutes and in particular approximately every 5 minutes.

6. Device according to one of the preceding claims, characterized in that the current flow is at most 100 mA.

7. The device according to claim 1, characterized in that the with the electrodes (10, 11) treated water (W) flows through a filter (22) before its removal or before its consumption.

8. Device according to one of the preceding claims, characterized in that the container (B) through the filter (22) into a first part container (Bl) and a second part container (B2) is separated, wherein the two electrodes (10, 11) in the first sub-container (Bl) are arranged and wherein a removal of treated water (W) from the second sub-container (B2) takes place.

9. Apparatus according to claim 8, characterized in that the first part container (Bl) has a larger volume (Vl) than the second part container (B2).

10. The device according to claim 9, characterized in that the volume (Vl) of the first part container (Bl) is at least twice as large as a volume (V2) of the second part container (B2).

11. Device according to one of the preceding claims, characterized in that the container (B) has a total volume (V) of up to 1 liter.