JP2793352B2 - Ion water supply device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a device for removing chlorine contained in tap water in a device for supplying ionic water.

[Prior Art] Conventionally, according to Japanese Utility Model Laid-Open Publication No. 51-156046, an ion for adjusting and producing alkaline ionized water and acidic ionized water by giving an electrolytic action and an electroosmotic action to tap water or hot water obtained by heating tap water. Water generators are known.

[Problems to be Solved by the Invention] However, in the above conventional example, tap water is mixed with chlorine for disinfection, and this chlorine is contained until the final use stage. I could not use it comfortably.

On the other hand, it is considered to remove chlorine by passing tap water through an adsorbent such as activated carbon.
It exists in a state of Cl _{2 and} a state of Cl ⁻ , and the adsorbent can only remove Cl _{2 and} cannot remove Cl ⁻ .

The present invention has been made in view of the above points, and an object of the present invention is to provide an ion water supply device capable of reliably removing chlorine.

[Means for Solving the Problems] An ion water supply apparatus of the present invention is an ion water supply apparatus for producing alkaline water and acidic ionic water by giving an electrolytic action and an electroosmotic action to tap water or hot water obtained by heating tap water. In addition to the provision of the water generator 1, switching devices 14, 18, and 19 for selectively supplying alkali ion water and acidic ion water supplied from the ion water generator 1 to the discharge unit 20, and a flow path to the discharge unit Among these, the present invention is characterized in that the adsorbent 3 disposed in the acidic ion water flow path 2 through which only the acidic ion water flows is provided. By adopting such a configuration, the above-described problem of the conventional example is solved. Thus, the object of the present invention has been achieved.

[Action] When tap water or hot water obtained by heating tap water is supplied to the ionic water generator 1 to give an electrolytic action and an electroosmotic action to adjust and produce alkali ion water and acidic ionic water, acidic ionic water is generated. Cl ⁻ contained in tap water or warm water obtained by heating tap water collects on the anode side, and becomes HClO on the anode side and is supplied to the acidic ionic water flow path 2 together with the acidic ionic water. Cl ₂ and HClO are intended to be adsorbed and removed by the adsorbent 3 provided.

EXAMPLES The present invention will be described below in detail based on examples shown in the accompanying drawings.

In FIG. 1, reference numeral 4 denotes a water supply pipe for supplying tap water, 5 denotes a hot water supply pipe, and taps with valves 6 and 7 are provided at the ends thereof. Here, the hot water supply pipe 5 is connected to a water heater (not shown) directly connected to a water pipe, so that hot water heated by the water heater is supplied from the valve-equipped faucet 7 of the hot water supply pipe 5. . One end of a water supply line 8 is detachably connected to a faucet 6 with a valve at the end of the water pipe 4 by a connecting means 9 called a so-called "soft connection". Further, a faucet 7 with a valve at the end of the hot water supply pipe 5 has a hot water supply pipe 10.
Are detachably connected to each other by a connecting means 9 called "soft connection". The middle and between the ends of the water supply pipe 8 and the hot water supply pipe 10 are the first and second three-way valves 11,
Connected by 12. The supply pipe 13 is connected to the tip of the second three-way valve 12, and the tip of the supply pipe 13 is connected to the ionized water generator 1. The ionic water generator 1 is an electrolysis tank
1a and the switching means 14. Electrolysis tank mentioned above
1a is, for example, partitioned into a cathode compartment and an anode compartment by a porous partition, by applying a voltage to the electrodes arranged in both compartments, so as to give electrolytic action and electroosmotic action to the hot and cold water in both compartments, In the cathode compartment, alkaline ionized water having a high pH value is produced, and in the anode compartment, acidic ionized water having a low pH value is produced. An apparatus for performing such generation is well known, for example, in Japanese Utility Model Laid-Open No. 51-156046.

The water supply routes of the alkali ion water and the acidic ions adjusted in this way are as shown in FIG. That is, one end is connected to the electrolysis tank 1a to supply the alkali ion water generated in the electrolysis tank 1a, and the other end is connected to the electrolysis tank 1a. The acidic ion water channel 15b for supplying the acidic ion water is connected to the switching means 14 each having a built-in flow path switching valve, and the ion water flow path 16 is introduced from the switching means 14, and the ion water flow path 16 is provided at the tip. Although a water discharge section 20 is provided, the middle of the ion water flow path 16 is further divided into parallel flow paths, one of which is an acidic ion water flow path 2 and the other is an alkaline ion water flow path 17. The on-off valve 1 is provided in each of the acidic ion water flow path 2 and the alkaline ion water flow path 17.
8, 19 are provided. An adsorbent interior is provided below the on-off valve 18 of the acidic ion water flow path 2 below the on-off valve 18, and the adsorbent 3 is provided in the adsorbent interior. As the adsorbent 3, for example, activated carbon is used. However, the cartridge is of a cartridge type so that it can be easily attached and removed.

Then, the first and second three-way valves 11 and 12 are operated to supply only the tap water, only the warm water obtained by heating the tap water, or the mixed water of the tap water and the hot water to the ionic water generator 1. The tap water or hot water obtained by heating the tap water supplied to the ion water generator 1 is subjected to an electrolytic action and an electroosmotic action in the ion water generator 1 to adjust and produce alkali ion water and acidic ion water. The alkaline ionized water and the acidic ionized water are sent to the switching means 14 side, and the switching of the switching means 14 causes the alkaline ionized water or the acidic ionized water to flow into the ion water flow path.
Sent to 16. When the acidic ionic water is sent to the ionic water flow path 16 by the switching means 14 by operating the open / close valves 18 and 19, the open / close valve 18 is opened, the open / close valve 19 is closed, and the acidic ionic water becomes acidic. Ion water flow path 16 through ionic water flow path 2
The water flows and is discharged to the water discharge section 20 at the tip of the nozzle. Switching means
When the alkaline ionized water is sent to the ion water flow path 16 by 14, the on-off valve 18 is closed and the on-off valve 19 is opened,
The alkaline ionized water flows through the alkaline ionized water flow path 17 to the water discharge section 20 at the tip of the ionized water flow path 16 and is discharged. By the way, the acidic ionized water or the alkaline ionized water which is not supplied to the ion flow path 16 side by the switching of the switching means 14 is discharged to the drain pipe 22.
Drained by In the figure, reference numeral 23 denotes a drain pipe provided in the electrolytic cell 1a.

Here, as described above, tap water or hot water obtained by heating tap water is supplied to the ionic water generator 1 to give an electrolytic action and an electroosmotic action to adjust and produce alkaline ionic water and acidic ionic water. in the anode side of the side where water is produced in the chlorine are mixed for disinfection tap water or tap water warmed heated Cl ^- becomes HClO the anode side gathered concentrated acidic with acidic ionized water Ion water channel 2
Will be supplied. Thus, the acidic ion water channel 2
Since the adsorbent 3 is provided as described above, Cl ₂ and HClO are adsorbed and removed by the adsorbent 3, and chlorine is removed from the acidic ionized water discharged from the water discharge unit 20. It is in a state. On the other hand, when the alkaline ionized water is subjected to electrolytic action and electroosmotic action by the ionized water generator 1 to prepare and manufacture the alkaline water and the acidic ionized water, the tap water or the warmed tap water is disinfected as described above. HCl is gathered concentrated on the anode side ^- Cl of entrained chlorine for
Since it becomes O and flows to the acidic ion water channel 15b together with the acidic ion water, the absolute amount of chlorine on the alkali ion water side is reduced, and obstacles such as chlorine odor can be minimized.

Note that, as shown in FIG.
A mineral providing means 21 may be provided as needed in the middle of the acidic ion water channel 15b. The mineral providing means 21 is a tank loaded with a rock such as barite, and is configured to apply minerals to alkaline ionized water or acidic ionized water by passing through the tank.

By the way, the alkaline ionized water and the acidic ionized water discharged from the discharge port 20 are used for face washing, hair washing, drinks, showers, baths, and the like.In this case, by discharging the alkaline ionized water from the discharge port 20. After emulsifying the skin's fats and secretions and washing away, the skin becomes smoother and cleaner, and has the same effect as so-called soap,
It promotes cleaning. By switching the switching means 14, the acidic ionized water is discharged from the discharge port 20 to obtain a sterilizing effect, prevention of bacterial infection, an astringent effect of tightening the skin, and to improve beautiful skin and health. In this way, by switching to finally perform the washing with the acidic ionized water, the originally acidic skin can be kept acidic.

[Effects of the Invention] In summary, the present invention provides an ionic water generating apparatus that adjusts and produces alkaline ionized water and acidic ionic water by applying electrolytic action and electroosmotic action to tap water or hot water obtained by heating tap water. Since the adsorbent is provided in the acidic ion water flow path in which the acidic ion water flows out of the ion water supplied from the water generator, tap water or hot water obtained by heating tap water is supplied to the ion water generator to perform an electrolytic action. and by adjusting production of alkaline ionized water and acidic ionized water by applying an electric osmosis, Cl contained tap water or tap water warmed warm water at the anode side of the side where the acid ion water is produced ^- is gathered in the anode side becomes HClO is supplied to an acidic ion water channel with acidic ionized water, be those capable of adsorbing removing Cl ₂ and HClO by the adsorbent provided on the acidic ion water channel and Te, Are those capable of efficiently removing chlorine from sex-ionized water, while in the alkaline ionized water side, when electrolytic action Cl in ionized water generator ^- an acid ion water becomes HClO with acidic ionized water at the anode side gathering Since it is supplied to the road side, the absolute amount of chlorine on the alkaline ionized water side is extremely small. In particular, switching to selectively supply alkali ionized water and acidic ionized water supplied from the ionized water generator to the discharge section Since the apparatus is provided, alkaline ionized water or acidic ionized water can be selectively taken out from the discharge section according to the application, and in any case, the chlorine content of the discharged ions can be reduced. In addition, an adsorbent is provided in the acidic ion water flow path in which only the acidic ion water flows out of the flow path leading to the discharge section, and chlorine is almost originally contained. For the have alkaline ionized water is not in contact with the adsorbent are those less depression of the adsorbent.

[Brief description of the drawings]

FIG. 1 is a diagram of a water supply system according to one embodiment of the present invention, and FIG. 2 is a diagram of a water supply system according to another embodiment of the present invention. Agent.

────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Asahi Horie 1048 Oaza Kadoma, Kadoma City, Osaka Prefecture Inside Matsushita Electric Works Co., Ltd. (JP, Y2) (58) Field surveyed (Int. Cl. ⁶ , DB name) C02F 1/46-1/48

Claims (1)

(57) [Claims] 1. An ion water generator for adjusting and producing alkaline ionized water and acidic ionized water by applying an electrolytic action and an electroosmotic action to tap water or hot water obtained by heating tap water is provided and supplied from the ion water generator. A switching device for selectively sending the alkaline ionized water and the acidic ionized water to the discharge section, and an adsorbent disposed in an acidic ionized water flow path through which only the acidic ionized water flows out of the flow path to the discharge section. An ion water supply device characterized by the above-mentioned.