KR20080101963A - Water treatment - Google Patents

Abstract

The present invention is achieved by providing a water treatment apparatus that reduces the reaction rate by passing liquid through an electrode formed by an electromotive metal, which passes water through an electrode of an electromotive metal. A device for generating alkaline reduced water by increasing the amount of hydrogen through a reduction potential using a potential difference generated in the process of contact between the electrode and the water. It is provided with a through-hole arranged to alternate with the adjacent side while generating a potential difference through the exchange, and including at least one disk-like electrode arranged in parallel at regular intervals using a spacing member in a direction crossing the water flow, Water introduced through the inlet of the housing By passing through the holes provided to be alternately with the contact to achieve a zigzag water flow to increase the contact time between the water and the electrode.

Description

Device for treatment the water of fuel and fluid water

1 is a cross-sectional view showing the configuration of a water treatment apparatus according to the present invention.

Figure 2 is an enlarged cross-sectional view of the main portion of the water treatment device of the present invention.

Explanation of symbols for main parts of the drawings

10 housing 12 inlet

14 outlet port 16 electrode

16a: water supply

18: interval holding unit 20: euro

The present invention relates to a water treatment apparatus that reduces the reaction rate of water through electromotive force of the metal itself, and more particularly, to a water treatment apparatus that maximizes contact between water and an electrode to generate water that passes through alkali reduced water.

In general, a water treatment apparatus has been developed to reduce alkali water to generate alkali reduced water. The water treatment apparatus generates an alkali reduced water by increasing the amount of hydrogen by forming a reduction potential of water between a metal and water. Various devices have been proposed and used,

However, the water treatment device is a simple structure that reduces the positive reaction rate through its own electromotive force by applying the metal itself or metal, and the structure for inducing the flow of water smoothly or for increasing the contact area is insufficient. There was a problem that it was insufficient to obtain the same effect as the reaction.

The present invention has been made in consideration of the above circumstances, and an object thereof is to arrange the electrodes of the disk-type metal generating the electromotive force of the negative potential in the process of contact with water in parallel at equal intervals by using the space keeping members in the direction crossing the water stream. In addition, by providing a zigzag stream of water passing through it, it is to provide a water treatment apparatus that can increase the contact area and time with water and improve the treatment.

This object of the present invention is achieved by providing a water treatment apparatus that reduces the reaction rate by passing a liquid through an electrode formed by a metal having electromotive force. An apparatus for generating alkaline reduced water by increasing the amount of hydrogen through a reduction potential using a potential difference generated in the process of contact between the electrode and the water, and having a water inlet and an outlet on both sides and a contact surface of the water on the housing. At least one disc-shaped electrode disposed at a predetermined interval in parallel with a water flow maintaining member in a direction intersecting with the water flow of the water while generating a potential difference through the exchange of electrons Including water, the water flowing through the inlet of the housing is It achieved a water current in zigzag manner and it is possible to increase the contact time of the water with the electrode by the water passage hole is provided in the side and the mutually staggered adjacent the poles respectively.

Next, an embodiment of the present invention will be described in detail with reference to the drawings.

Figure 1 shows a water treatment apparatus according to the present invention in detail, the present invention is a treatment device installed on the passage of the water to change the water to alkaline, more specifically, the electrode is presented as a metal having electromotive force It is a device that reduces the forward reaction speed of the water through a reduction potential using the potential difference generated during the contact between the water and the electrode through the water.

The water treatment apparatus according to the present invention has a suitable position in the pipe to which water is transported, preferably a position prior to the intermittent devices additionally installed for the control of the water on the inlet side or on the water pipe, and when the filter is installed. It would be desirable to install after the filter.

The water treatment apparatus of the present invention has a housing 10 which wraps around and provides an enclosed space, and pipes P are connected to both sides in the longitudinal direction of the housing 10 to prevent inflow and outflow of water to be treated. A water inlet 12 and a water outlet 14 are formed.

Here, the material of the housing 10 selects a non-conductor when generating alkaline ionized water, and may use a conductor when preventing corrosion or removing scale.

In addition, the housing 10 is provided with a cover 11 that is coupled and detached in a screw assembly so as to open and close any one surface to achieve the assembly and disassembly of the interior to be described later.

In the housing 10, at least one or more electrodes 16 are formed at equal intervals to generate a potential difference through the exchange of electrons at the contact surface of the water.

The electrodes 16 have a predetermined thickness and have a disk shape, and are provided with at least one through hole 16a. At this time, the through holes 16a of the electrodes 16 may be alternately disposed to alternate with the adjacent electrodes 16 as shown in FIG. 1.

In addition, the electrodes 16 are disposed in parallel in a stacking manner at predetermined intervals by using the space keeping member 18 in a direction crossing the water flow of the water.

Here, the spacing element 18, which maintains a proper spacing with the adjacent side in the arrangement of the electrodes 16 to provide a flow path, is a non-conductive material, which spacing element 18 is formed between the electrodes 16. At the same time, it also serves as a barrier to isolate the adjacent channel.

Electrode 16 of the present invention is formed of a metal material having an electromotive force, it is preferable to select a material having a high ionization tendency, in the present embodiment is molded using a magnesium alloy or zinc alloy and the like and these The materials may be arranged or two materials may be alternately arranged.

The water flow provided by the flow paths 20 provided between the disk-shaped electrodes 16 arranged in parallel in this way is provided with water flowing alternately with the adjacent sides of the electrodes 16 as indicated by the arrows in the figure. Water flows zigzag along the balls 16a to increase the contact area and time between the water and the electrodes 16 to improve throughput.

Then, the operation according to the present invention will be described in detail.

First, a water treatment apparatus is mounted on a water pipe. Water passing through the housing 10 comes into contact with the electrode 16.

At this time, since the electrode 16 is formed by a metal having a lower galvanic potential than the tube itself, when the electrode 16 is in contact with water, the reaction rate is reduced and the amount of hydrogen in the water is increased to obtain alkali reduced water.

At this time, the potential difference generated at the electrode 16 is based on the Nernst Equation, for example, when the partial pressure of hydrogen is 1bar and the temperature is 25 ° C, the metal potential is less than -0.6V. Silver is known to reduce hydrogen ions at a sufficient rate upon contact with water.

Further, a lead wire 30 is provided between the housing 10 and the electrodes 16 for discharging the negative electric charge on the pipe P of the liquid main stream connected to the outlet port 14 by connecting them therebetween. In this case, the lead wire 30 may be used for cathodic protection (sacrificing anodization).

Therefore, the potential of the metal is lowered by electromotive force generated at the electrode 16 of the water treatment device, and the water is electrolyzed to reduce the potential to prevent corrosion of the pipe and descale the pipe.

The present invention is arranged in parallel at equal intervals with the spacing member in the direction intersecting the water flow of the disk-shaped metal electrodes that generate the electromotive force of the negative potential in the process of contact with water, and mutually staggered with the adjacent side to these electrodes By making the water flows in a zigzag manner by the water holes, there is an effect of increasing the contact area with water to improve the processability.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be changed within the scope of the claims.

Claims (2)

As a device for passing the water through the electrode of the metal having an electromotive force and reducing the forward reaction speed of the water through the reduction potential using the potential difference generated during the contact between the electrode and the water, A housing having inlets and outlets of the water on both sides; And The housing is provided with a through hole which is alternately arranged with the adjacent side while generating a potential difference through the exchange of electrons from the contact surface of the water, and arranged in parallel at a predetermined interval using a spacing member in a direction crossing the water flow of the water. At least one disc-shaped electrode, Here, the water flowing in through the inlet of the housing is a water treatment device characterized in that to achieve a zigzag water flow by the through-holes provided to be alternately arranged with each other adjacent to each of the electrodes. The method of claim 1, And a lead wire connected between the housing and the electrode unit for discharging a negative electric charge on a water flow path connected to the outlet port side.

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