DE29520117U1 - Device for disinfecting swimming pool water - Google Patents

Description

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Device for disinfecting swimming pool water 5

The invention relates to a device for disinfecting swimming pool water, which has a power supply and a flow-through electrolysis cell built into the circuit of a circulation line, with at least one cathode and one anode and a channel between them through which water flows, wherein the cathode and the anode are each plate-shaped and consist of titanium or another valve metal that is coated with a noble metal oxide.

DE 94 08 480 Ul discloses a device for disinfecting swimming pool water with a swimming pool system in which the swimming pool water to which salt has been added is located and an electrode system that comprises an anode and at least one cathode. The electrode system is an electrode cell unit in which the anode and the cathode are arranged in a hollow body provided with flow openings, which is suspended in the swimming pool water of the swimming pool system and which is connected to a control unit. The anode and the cathode are designed as a plate-shaped anode or cathode element.

For sufficient disinfection, 4 to 7 kg of salt as sodium chloride are required per 1000 liters of water or 1 m^. This salt must be poured into the pool water, whereby the salt dissolves completely after 12 to 24 hours. The device is then placed in the pool.

In the electrode system, hypochlorous acid or hypochlorite is released through an electrical process, which disinfects the water.

With the known device it is necessary to add salt to the swimming pool water. This is particularly necessary because fresh water with a natural chloride content causes a high voltage drop at the electrodes, so that the flow

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contact voltage of the carrier materials is exceeded. The addition of salt is complex and changes the water quality, and salt water is known to lead to deposits and corrosion. This increases the maintenance effort of a swimming pool. By placing the electrode system anywhere in the swimming pool, the water has a different degree of disinfection, which constantly decreases with the distance from the device.

A device for disinfecting swimming pool water is also known, in which a reaction cell with a cathode and an anode on the pressure side is installed in the existing pipe system of a swimming pool. The electrodes are made of titanium. This device achieves relatively rapid mixing, but it is also necessary to add fine salt to the swimming pool water until a salt content of 0.4 to 0.5% is reached.

The invention is based on the object of creating a device for disinfecting swimming pool water, which has a power supply and a flow-through electrolysis cell built into the circuit of a circulation line, with at least one cathode and one anode and a channel between them through which water flows, the cathode and the anode each being plate-shaped and made of titanium or another valve metal that is coated with a noble metal oxide, which disinfects swimming pool water from fresh water with a natural chloride content on the one hand by anodic oxidation and on the other hand by hypochlorite formed from natural chloride ions, the depot effect in the swimming pool also being ensured by the formation of hypochlorite ions.

According to the invention, the object is achieved in that the mutually facing electrode surfaces of the cathodes and the anode 40

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are arranged plane-parallel to each other at a distance of 0.5 to 2 mm and the current density of the facing electrode surfaces is < 80 A/m ² , whereby the water flowing through
Channel lies between these electrode surfaces and the
The current supply for the cathode and the current supply for the anode are arranged spatially at a maximum distance from each other.

It was surprisingly found that with the solution according to the invention, no such

such a voltage drop that the penetration voltage of the noble metal oxide coated titanium or the other carrier materials is exceeded. This makes it possible to use a flow electrolysis cell to disinfect swimming pool water.
without adding salt to the swimming pool water.

An advantageous embodiment of the inventive solution
is that the flow electrolysis cell is a
Plastic tube cell is formed in which in the longitudinal direction
several cathodes and anodes are arranged alternately,

between their opposing electrode surfaces
one channel each, with the cathodes and the anodes each connected to a power supply and the power supply for the cathodes and the
Power supply for the anodes at the longitudinal direction of the

Plastic tube cell opposite ends of the
cathodes and anodes are arranged.

The cathodes and anodes are conveniently located in their
plane-parallel distance from each other by electrically non-conductive spacers.

Preferably, the cathodes and anodes are provided with a reversible coating.

To fully utilize the device, the

The entire electrode surface must be surrounded by water. This

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This is achieved by having the plastic tube cell, in the direction of flow, on its front sides an inlet and an outlet opening for the water flowing through.

To ensure safe operation of the device, the flow electrolysis cell is equipped with a pressure relief valve.

In the device according to the invention, it is possible for the flow electrolysis cell to be arranged in the main line or a shunt line of the circulation line. 15

The invention is explained in more detail using an embodiment. The accompanying drawing shows:

Fig. 1 the electrode package in perspective view Fig. 2 the front view of the flow electrolysis cell

The electrode package of the device for disinfecting swimming pool water is shown in Fig. 1. The electrode package has a cathode 2 and an anode 3, which are plate-shaped. They consist of titanium or a valve metal, which is coated with a noble metal oxide. The electrode surfaces 2'; 3' of the cathode 2 and the anode 3 facing each other are arranged plane-parallel to each other at a distance of 0.5 to 2 mm. The cathode 2 and the anode 3 are connected to the electrode package by means of connecting elements 8, for example by screws. In order to maintain the predetermined plane-parallel distance, electrically non-conductive spacers 7 are arranged between the opposing electrode surfaces 2'; 3'. This creates channels 4 through which the swimming pool water flows.

The current density of the facing electrode surfaces 2';3' is < 80A/m ² ·
40

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The power supply 5 for the cathode 2 and the power supply 6 for the anode 3 are arranged at a maximum distance from each other. As shown in Fig. 1, all cathodes 2 and all anodes 3 are each connected to a power supply 5; 6. The power supplies 5; 6 are arranged at the ends of the cathodes and the anodes 3 that are opposite each other in the longitudinal direction.

During assembly, the cathodes 2 and the anodes 3 are pushed into one another so that an anode 3 lies between two cathodes 2. The electrically non-conductive spacers 7 are pushed between the individual electrode surfaces 2'; 3 ¹ and the electrode package formed in this way is then firmly joined together with the connecting element 8.

The electrode package is then inserted into a plastic tube cell 1 (Fig. 2) and the device is fully assembled. The electrode package lies lengthwise in the plastic tube cell 1. As shown in Fig. 2, an electrical supply line 5';6' is provided at each end of the plastic tube cell 1. These are connected to the power feeds 5; 6 in a manner not shown. This provides the power supply in a manner known per se, whereby the electrical supply line 5'; 6 ¹ can be connected in a manner not shown to a power supply unit that converts the alternating current of 220 V into a direct current of 6.0 to 7.5 V.

The plastic tube cell 1 is open at its front ends. It can preferably be screwed to a pipe system for feeding the swimming pool water into the swimming pool using union nuts 9. A pressure relief valve 10 is arranged in the plastic tube cell 1, through which gases that are produced during electrolysis can be discharged. The swimming pool water flows through the electrolysis cell in the flow direction A. The cathodes 2 and the anodes 3 are completely washed by the swimming pool water, which ensures good performance.

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The cathodes 2 and the anodes 3 are expediently provided with a polarity-reversible coating.

In a manner not shown, the flow electrolysis cell can be arranged in the main line or a shunt line or bypass line of the circulation line.

The device according to the invention disinfects the water with a storage effect of the disinfectant. The device is easy to use and can be operated without any special prior knowledge. The mode of operation is based on the principle of anodic oxidation. Adding salt to the swimming pool water is not necessary.

Claims (8)

Protection claims 1. Device for disinfecting swimming pool water, which has a power supply and a flow-through electrolysis cell built into the circuit of a circulation line, with at least one cathode and one anode and a channel between them through which water flows, the cathode and the anode each being plate-shaped and made of titanium or another valve metal that is coated with a noble metal oxide, characterized in that the mutually facing electrode surfaces {2 ¹ ,· 3 ^! ) of the cathode (2) and the anode (3) are arranged plane-parallel to one another at a distance of 0.5 to 2 mm and the current density of the mutually facing electrode surfaces (2',· 3') is < 80 A/m ² , the channel through which water flows {4) is located between these electrode surfaces (2 ¹ ,· 3') and the current feed (5) for the cathode (2) and the power supply (6) for the anode (3) are arranged spatially at a maximum distance from each other. 2. Device according to claim 1, characterized in that the flow electrolysis cell is designed as a plastic tube cell (1) is formed, in which a plurality of cathodes (2) and anodes (3) are arranged alternately in the longitudinal direction, between whose opposing electrode surfaces (2 ¹ ; 3') a channel (4) runs, wherein the cathodes (2) and the anodes (3) are each connected together to a current feed (5; 6) and the current feed (5) for the cathodes (2) and the current feed (6) for the anodes (3) are connected to the ? ends of the cathodes (2) and the anodes (3). 3. Device according to claim 1 and 2, characterized in that the cathodes (2) and the anodes (3) are fixed to one another in their plane-parallel distance from one another by electrically non-conductive spacers (7). ti» DE1028RÖ01 · 4. Device according to claims 1 to 3, characterized in that the cathode (2) and the anode (3) are provided with a polarity-reversible coating. 5. Device according to claims 1 to 4, characterized in that the entire electrode surfaces (2 ¹ ; 3') are surrounded by water. 6. Device according to claims 2 to 5, characterized in that the plastic tube cell (1), in the flow direction (A), has an inlet and an outlet opening for the water flowing through on its front sides. 7. Device according to claims 1 to 6, characterized in that the flow electrolysis cell is provided with a pressure relief valve (10). 8. Device according to claims 1 to 7, characterized in that the flow electrolysis cell is arranged in the main line or a shunt line of the circulation line.