JP2007319751A - Device for producing ion water - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for producing ion water capable of making an ion water generation rate fast and also the water quality of generated ion water excellent. <P>SOLUTION: The device for producing ion water 1 comprises supplying raw water into a container 2, electrolyzing it, and generating alkali ion water and acidic ion water wherein a ceramic-made diaphragm 3 is provided in the container 2 so as to separate an alkali ion water generation area 13 and an acidic ion water generation area 11, and wherein an alkali ion water collecting pipe 6 for collecting the alkali ion water generated in the alkali ion water generation area 13 is used as a cathode. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an ionic water production apparatus that electrolyzes water to generate alkaline ionic water and acidic ionic water.

As the ionic water production apparatus described above, the apparatus includes a plurality of electrolytic cells each having an electrolytic diaphragm mainly composed of crystalline clay mineral and a pair of electrodes arranged with the electrolytic diaphragm sandwiched therebetween. It is known that each of alkaline and acidic ionized water to be supplied to a predetermined electrode side with an electrolytic diaphragm in another electrolytic cell interposed therebetween is known.
JP-A-8-24865

  By the way, in the case of the ionic water production apparatus described above, the quality of the produced ionic water is not very good, and the production speed is also slow.

  The present invention has been made in order to solve such problems of the prior art, and can increase the generation rate of ionic water and improve the quality of the generated ionic water. An object is to provide a water production apparatus.

  An ionic water production apparatus according to claim 1 of the present invention is an ionic water production apparatus in which raw material water is supplied into a container and electrolyzed to produce alkali ion water and acidic ion water. A ceramic diaphragm is provided to separate the water generation region and the acidic ion water generation region, and an alkali ion water collection pipe for collecting the alkali ion water generated in the alkali ion water generation region is provided. And used as a cathode.

  The ionic water production apparatus according to claim 2 of the present invention is the ionic water production apparatus according to claim 1, wherein the raw water supply pipe for supplying the raw water to the production region of the alkaline ion water is also used as a cathode. It is used.

  The ionic water production apparatus according to claim 3 of the present invention is the ionic water production apparatus according to claim 2, wherein the raw water supply pipe and the alkaline ion water collection pipe are made of a conductive metal and the alkaline ion water. It is provided so as to be immersed in the generation region, and a potential that is negative with respect to the potential of the anode provided in the generation region of the acidic ion water is applied to both the pipes. And

  In the case of the present invention, the alkaline ion water collection pipe for collecting the alkaline ion water produced in the production region of the alkaline ion water functions as a cathode, so that the cathode electrode has a very large area, and Since the water flowing through this pipe always passes through the vicinity of the electrode, the ionic water can be generated efficiently, and the quality of the generated ionic water can be improved. In particular, the raw water supply pipe for supplying the raw water to the alkaline ion water generation region also functions as a cathode, so that the efficiency of the ionic water and the quality of the ionic water are improved. It becomes possible to.

  The present invention will be specifically described below.

  FIG. 1 is a front view schematically showing an ionic water production apparatus according to an embodiment of the present invention.

  This ionic water production apparatus 1 includes a container 2, a partition wall 3, a raw water supply pipe 4, an electrolyte supply pipe 5, an alkaline ion water collection pipe 6, and a hydrogen gas discharge pipe 7 branched from the alkaline ion water collection pipe 6. And a discharge pipe 8 and an anode 9 provided in the container 2.

  For example, the container 2 is open at the top, and a partition wall 3 having a bowl shape, for example, is provided inside the container 2. The partition 3 is made of ceramic such as terracotta, for example, and can move some moisture inward and outward. The raw water is supplied to the inside of the partition wall 3 through the raw water supply pipe 4. The raw water supply pipe 4 is piped so that the supply port 4a at one end thereof reaches the vicinity of the bottom of the partition wall 3, and the other end is connected to a raw water supply source, for example, a water pipe (not shown). . In addition, since the material of the lid | cover 3a provided on the partition 3 is located above the water surface, it is not restricted to the product made from a ceramic, You may use arbitrary things.

  The alkali ion water sampling pipe 6 is piped with the water intake 6a on one end facing upward inside the partition wall 3, and is bent upward at a position slightly closer to the other end side than the water intake 6a. 3, and a hydrogen gas discharge pipe 7 branches upward at a portion above the partition wall 3.

  The alkali ion water collection pipe 6 and the raw water supply pipe 4 are made of conductive metal, and a cathode 10 is electrically connected to each of the pipes 6 and 4. The pipes 6 and 4 are preferably made of conductive metal and excellent in corrosion resistance. On the other hand, the inside of the container 2 and the outside of the partition wall 3 functions as the anode chamber 11, and the anode chamber 11 is provided with the anode 9 and the electrolyte solution via the electrolyte solution supply pipe 5. Will be replenished. As the anode 9, for example, a plate-shaped or rod-shaped one is used.

  Accordingly, since an anode potential is applied to the anode chamber 11 and a cathode potential that is negative with respect to the anode potential is applied to the inside of the partition wall 3, the inside of the partition wall 3 becomes an alkali ion water generation region 13. Becomes an acidic ion water generation region. As a result, the raw water supplied to the inside of the partition wall 3 is electrolyzed, and alkaline ion water is generated in the alkaline ion water generation region 13 and acidic ion water is generated in the acidic ion water generation region 11. The acidic ionic water in the acidic ionic water generation region 11 is discharged to the outside through the discharge pipe 8 when reaching a predetermined water surface height. In addition, the water intake 6a side of the alkali ion water collection pipe 6 and the supply port 4a side of the raw water supply pipe 4 are immersed in alkaline ion water.

  The alkaline ionized water inside the partition wall 3 is guided to the outside through the water intake 6a through the alkaline ionized water sampling pipe 6, and the hydrogen gas is separated by the hydrogen gas discharge pipe 7 along the way.

  Therefore, according to the present embodiment, the raw water supply pipe 4 for supplying raw water to the alkaline ion water generation region 13 and the alkaline ion water collection pipe 6 for collecting the generated alkaline ion water. Functions as a cathode, so the electrode of the cathode has a very large area, and the water flowing through both the pipes 4 and 6 always passes through the vicinity of the electrodes, so that ionic water is efficiently generated. In addition, the quality of the generated ionic water can be improved.

  In the embodiment described above, since the raw water is supplied to the alkaline ionized water generation region 13 by the raw water supply pipe 4, the raw water supply pipe 4 is configured to function as a cathode. The present invention is not limited to this. For example, when the raw water is supplied to the acidic ion water generation region 11 by the raw water supply pipe, the raw water supply pipe is configured to function as an anode.

(Use example of generated alkaline ionized water)
High molecular weight sericin can be extracted by supplying alkaline ionized water to a sericin extraction tank and immersing the silk thread in the alkaline ionized water of the extraction tank. This makes it possible to modify the fiber.

It is a front view which shows typically the ion water manufacturing apparatus which concerns on one Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ionized water production apparatus 2 Container 3 Partition 4 Raw material water supply piping 6 Alkaline ion water sampling piping 9 Anode 10 Cathode 11 Acidic ionic water generation region (anode chamber)
13 Alkaline ion water generation region

Claims (3)

In an ionic water production apparatus for supplying raw material water into a container and electrolyzing it to produce alkaline ionic water and acidic ionic water,
A ceramic diaphragm is provided in the container so as to separate the alkaline ion water production region and the acidic ion water production region, and the alkaline ion water produced in the alkaline ion water production region is collected. An ionized water production apparatus, wherein a pipe for collecting alkaline ionized water is used as a cathode. In the ion water production apparatus according to claim 1,
A raw water supply pipe for supplying the raw water to the alkaline ionized water generation region is also used as a cathode. In the ion water production apparatus according to claim 2,
The raw water supply pipe and the alkaline ion water collection pipe are made of a conductive metal and are provided so as to be immersed in the production area of the alkaline ion water. An ion water production apparatus, wherein a potential which is a negative potential is applied to a potential of an anode provided in a generation region.

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