JP2007209944A - Operation method of water softening plant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation method of a water softening plant for removing hard substances in raw water using an ion-exchange resin so that sanitary soft water can be always supplied. <P>SOLUTION: In the operation method of the water softening plant 1 where the ion-exchange resin is regenerated by salt water supplied to a resin holder 2 filled with the above ion-exchange resin, the salt water containing a hypochlorite produced by the electrolysis of brine is supplied as a regenerating agent. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for operating a water softener that removes the hardness in raw water with an ion exchange resin.

  The soft water device uses a sodium-type or potassium-type ion exchange resin and obtains soft water by substituting sodium ions or potassium ions for the hardness contained in the raw water, that is, calcium ions and magnesium ions. The obtained soft water is used for boiler water in factories and the like, and water for daily life in general households.

In such a soft water device, when the ion exchange resin reaches a predetermined amount of treated water, the ion exchange groups are almost saturated due to the hardness, and the ion exchange capacity is lost, that is, a breakthrough state. Therefore, in the soft water device, before the ion exchange resin is in a breakthrough state, the ion exchange resin is supplied with salt water in which salts such as sodium chloride and potassium chloride are dissolved in water as a regenerant, The ion exchange resin is regenerated (for example, see Patent Document 1).
JP 2004-237259 A

  By the way, in the soft water device, if the unused state continues for a long time, the bacteria grow in the resin storage portion in which the ion exchange resin is stored, and at the start of use, discolored soft water in a state containing a lot of bacteria is generated. May leak. Such unsanitary soft water containing a large amount of bacteria is not preferable as water for daily use in general households.

  The problem to be solved by the present invention is to always supply sanitary soft water.

  This invention was made in order to solve the said subject, and the invention of Claim 1 supplies salt water to the resin accommodating part in which the ion exchange resin was accommodated, and the soft water which reproduces | regenerates the said ion exchange resin A method for operating an apparatus, wherein salt water containing hypochlorite generated by electrolysis of salt water is supplied as a regenerant.

  In invention of Claim 1, by supplying the salt water containing the hypochlorite produced | generated by the electrolysis of salt water to the said resin accommodating part as a regeneration agent, with the reproduction | regeneration of the said ion exchange resin, hypochlorous acid The inside of the resin container is sterilized by the action of the acid salt.

  According to the first aspect of the present invention, when the ion exchange resin is regenerated, the inside of the resin container can be sterilized by the action of hypochlorite, so that sanitary soft water is always supplied. Can do. Hypochlorite having a bactericidal action is generated by electrolyzing salt water used for regeneration of the ion exchange resin, and regeneration is performed by supplying salt water containing this hypochlorite. Can be sterilized, and can be sterilized without trouble.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic explanatory view showing an example of the configuration of a water softener for carrying out the present invention.

  A soft water device 1 shown in FIG. 1 includes a resin container 2 that stores an ion exchange resin (not shown), and a control valve 3. A raw water line 4 for supplying raw water to the resin container 2 and a soft water line 5 for collecting soft water from the resin container 2 are connected to the resin container 2 via the control valve 3. Yes. The raw water supplied from the raw water line 4 to the resin container 2 by a water supply pump (not shown) is softened by removing hardness due to the action of the ion exchange resin, and this soft water is generally discharged from the soft water line 5. It has come to be supplied as water for daily life at home.

  Further, the water softening device 1 is provided with a salt water supply means 6 to the resin container 2. The salt water supply means 6 has a salt water tank 7 storing salt water as a regenerant for the ion exchange resin, and is configured by connecting the salt water tank 7 to the control valve 3 via a salt water line 8. ing. The salt water line 8 is provided with a pump 9, and the salt water stored in the salt water tank 7 is sent to the control valve 3 by the pump 9 and then supplied to the resin container 2. It is like that.

  An electrolyzer 10 is connected to the salt water line 8. The electrolyzer 10 generates hypochlorite, for example, sodium hypochlorite, by electrolyzing salt water flowing from the salt water tank 7 through the salt water line 8. And the salt water containing the hypochlorite produced | generated in the said electrolyzer 10 is sent to the said control valve 3 from the said salt water line 8, and is supplied to the said resin accommodating part 2. FIG. .

  A drain line 11 is connected to the resin container 2 via the control valve 3, and salt water supplied from the salt water supply means 6 and used for regeneration of the ion exchange resin can be discharged. It is like that. The drain line 11 is connected to the control valve 3 on the side opposite to the connection side of the salt water line 8.

  Now, in the water softening device 1, during water flow operation, the raw water supplied from the raw water line 4 to the resin container 2 is made soft water by the action of the ion exchange resin, and this soft water is fed from the soft water line 5 in a general household. Supply water for daily use. And the regeneration operation | movement which reproduces | regenerates the said ion exchange resin is implemented in the midnight etc. which do not use the said water softener 1.

  In the regeneration operation, the pump 9 is operated, and salt water in the salt water tank 7 is supplied from the salt water line 8 into the resin container 2 through the control valve 3 as a regenerant. At this time, the electrolyzer 10 electrolyzes the salt water flowing through the salt water line 8 to generate hypochlorite, for example, sodium hypochlorite. Therefore, salt water containing hypochlorite is supplied from the salt water line 8 to the resin housing part 2 through the control valve 3. As a result, the ion exchange resin is regenerated and the inside of the resin container 2 is sterilized by the action of hypochlorite.

  Here, in the electrolysis apparatus 10, the concentration of hypochlorite contained in the salt water that has flowed into the resin container 2 can be sufficiently sterilized in the resin container 2 (specifically, The voltage or current is controlled so that the chlorine concentration is 20 to 30 mg / liter.

  The salt water supplied to the resin container 2 is discharged from the drain line 11 as reclaimed waste water through the control valve 3.

  According to the soft water device 1, since the inside of the resin container 2 can be sterilized by the action of hypochlorite when the ion exchange resin is regenerated, sanitary soft water can always be supplied. it can. Hypochlorite having a bactericidal action is generated by electrolyzing salt water used for regeneration of the ion exchange resin, and regeneration is performed by supplying salt water containing this hypochlorite. Can be sterilized, and can be sterilized without trouble. Moreover, since the electrolyzer 10 need only be provided in the salt water line 8, the apparatus does not increase in size.

  Although the present invention has been described above with reference to the embodiments, it goes without saying that the present invention can be variously modified without departing from the spirit of the present invention. For example, although the specific illustration is omitted, the electrolyzer 10 may be provided in this bypass line by forming a bypass line in a part of the salt water line 8. Further, the electrolyzer 10 may be configured to be incorporated in the control valve 3, for example.

It is a schematic explanatory drawing which shows an example of a structure of the water softener for implementing this invention.

Explanation of symbols

1 Water softener 2 Resin container

Claims (1)

A method of operating a water softener that supplies salt water to a resin container in which an ion exchange resin is contained, and regenerates the ion exchange resin,
A method for operating a water softener, comprising supplying salt water containing hypochlorite produced by electrolysis of salt water as a regenerant.

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