JPS604639Y2 - ionized water conditioner - Google Patents

Description

[Detailed description of the invention] The present invention relates to an ionized water conditioner, and more particularly to a water conditioner having a water intake device that takes in water that has been purified and separated into alkaline calcium ionized water and acidic water in an electrolytic cell. be.

Water contains minerals such as calcium, magnesium, and sodium, but since these minerals are combined with other substances, they are not fully broken down in the body when drunk, and are absorbed as nutrients. It is often excreted from the body in an untreated state.

Normally drinking water (tap water) has a pH of 6 to 7, but water is electrolyzed (ion exchanged) to separate alkaline calcium ion water and acidic water, and the alkaline calcium ion water is purified by pH 6 to 7.
The water is raised to H9-11 and used for direct drinking or cooking, etc., so that alkaline water containing calcium, magnesium, sodium, etc. can be effectively ingested and absorbed, and acidic water is not used for purposes other than food, such as facial cleansing, gargling, etc. Various ionized water conditioners have been proposed.

However, in conventional water conditioners, internal purification is not possible because the devices that separately take in the water separated into alkaline ionized water and acidic water in the electrolyzer are installed inside the water conditioner case. It was something.

Therefore, after water intake, the water intake device is stored in a state where it cannot be completely drained, and if this process is repeated, a neck-shaped film surface is formed on the inner surface of the water intake device, which is unhygienic and easy to attract bacteria.

The present invention provides a water conditioner in which a separate intake device for alkaline ionized water and acidic water can be attached to and removed from a water conditioner case, thereby making it possible to purify the water.

An embodiment of the present invention will be described in detail below with reference to the drawings.

Figure 1 shows a cross-sectional view of the water conditioner seen from the side.A water tank lid 2 is installed in the upper part of the water conditioner case 1, and a water intake device 3 is removably installed in the lower part of the case 1. 2
An electrolytic cell 9 is erected and supported within the case 1 between the water intake device 3 and the water intake device 3 .

As the details of the water intake device 3 are shown in FIGS. 2 and 3,
The inside of a box-shaped container 5 with a water intake port 4 on the top surface is divided into left and right chambers by a partition wall 6 installed so as to pass through the center. .

At the lower surface of the tip of the bottom plate 5a of the container 5, outflow lowers communicating with each chamber are installed separately.

The water intake device 3 as described above can be inserted into the case 1 through a window 8 formed on the front surface of the case 1, and at this time, the water intake port 4 is located directly below the electrolytic cell 9 in the case 1, Further, the outflow lower is located outside the case 1.

In order to position the water intake device 3 within the case 1, a guide groove may be provided on the pedestal 10 on which the device 3 is placed, or a stopper may be formed as appropriate to prevent the water intake device 3 from shifting due to vibration or the like.

The electrolytic cell 9 installed in the case 1 has a cylindrical diaphragm 9a.
It has a cylindrical cathode 9b on the outside, and an anode 9 on the inside.
The upper surface of the electrolytic cell 9 faces the inlet 11 of the water tank lid 2, and the lower surface faces the water intake port 4 of the water intake device 3 as described above.

At the bottom of the electrolytic cell 9 are a diaphragm 9a, a cathode 9b, and a diaphragm 9.
Two openable and closable outflow ports 12 communicating between the anode a and the anode 9c are bored, and each outflow port 12 allows water to flow through the water intake port 4 into a chamber divided into left and right by the partition wall 6 of the container 5. ing.

In the figure, 13 is a timer, and 14 is a display meter.

The present invention has the above configuration, and when water is injected into the electrolytic cell 9 from the water tank lid 2 and electricity is applied to the electrolytic cell 9, alkaline calcium ion water is generated between the cylindrical diaphragm 9a and the cathode 9b, and the diaphragm 9
Acidic water is formed between a and the anode 90, and after ion exchange in the electrolytic cell 9, if each outlet 12 drilled at the bottom of the electrolytic cell 9 is opened, the alkaline ionized water and acidic water are separated from the water intake. 4 into the left and right chambers of the container 5, respectively, and can be taken in from the outflow lower at the tip of the container 5.

After ion exchange and water intake of the entire amount of water is completed, the water intake device 3 is pulled out from inside the case 1, thoroughly washed, drained, dried, and then stored, so that it can be maintained and used in a sanitary condition at all times. be.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; Fig. 1 is a side vertical sectional view of the entire water conditioner, Fig. 2 is a perspective view of the water intake device of the present invention;
FIG. 3 is a front view of the same. 1 is a water conditioner case, 2 is a water tank lid, 3 is a water intake device, 4 is a water intake port, 5 is a container, 6 is a partition wall, 7 is an outlet, and 9 is an electrolytic cell.

Claims (1)

[Scope of utility model registration request] A water tank lid 2 is installed on the top of a water conditioner case 1, and a cylindrical cathode 9b is provided on the outside of a cylindrical diaphragm 9a inside the case 1.
A water conditioner that electrolyzes water into alkaline ionized water and acidic water by erecting an electrolytic cell 9 with an anode 9c inside, and separates and takes in the water. A water intake device 3 is installed in the case 1, in which the water intake 4 and the inside of the container 5 are divided into left and right by a partition wall 6 installed in the container 5, and an outflow lower is provided on the bottom surface of the tip of the container 5 to communicate with each chamber divided into left and right by the partition wall 6. An ionized water conditioner characterized in that the water intake port 4 is removably installed in the lower part so that the water intake port 4 is located directly below the electrolytic cell 9.