JPH02207886A - Water quality improving device - Google Patents

Abstract

PURPOSE:To greatly improve the activation of water and to maintain the active effect thereof over a long period of time of providing a bubble generator provided with an air supplying path, the terminal of which faces the ejection port of a nozzle for supplying the water, a cylindrical body connected to the ejection port of the nozzle and a far IR radiating object housed in the cylindrical body. CONSTITUTION:The flow velocity of the water is maximized in the ejection port of the nozzle 7 of the bubble generator 1 when the water is supplied to the nozzle 7. On the other hand, the air is supplied from the air supplying cylinder 6 to the ejection port. The water ejected from the ejection port is made into bubbles at the time of ejection and the bubbles are injected into the cylindrical body 2. The water injected into the cylindrical body 2 in such a manner absorbs the far IR rays radiated from the far IR radiating object 9 and at the same time absorbs the ultrasonic waves generated when the bubbles rupture. This water flows out in the exceedingly activated state to the outside of the cylindrical body 2. Since the far IR radiating object 9 is washed by the impact generated by the bubbles of the water passing in the cylindrical body 2 or the ultrasonic waves and, therefore, the radiation efficiency of the far IR rays is maintained over a long period of time.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a water quality improver that improves the quality of water such as tap water.

(Prior art) In recent years, when water such as tap water is treated with far infrared rays, the water is activated by the far infrared rays, and this activated water becomes delicious when used as quotation water, and when used for cooking. I have learned that cooked food is delicious.

(Problem to be Solved by the Invention) Therefore, the present inventor has discovered that when a far-infrared emitting object is inserted into a ring body such as a flexible tube, and the cylinder body is used by connecting it to a water faucet, the cylinder body We prototyped a device in which water activated by far infrared rays is discharged from the discharge port.

However, although this prototype device has a simple structure and is inexpensive, it has become clear that the activation of water is still insufficient and that the activation effect decreases with use.

In order to solve this problem, the inventor conducted repeated research and found that by making the water injected into the cylinder into bubbles, the activation of the water was dramatically improved, and the water remained active for a long period of time. We found that the active effect can be maintained.

The present invention was completed based on such knowledge and aims to solve the above problems.

(Means for Solving the Problems) In order to achieve the above object, the present invention is configured as follows.

In other words, one aspect of the present invention is to provide a bubble generating base in which the end of an air supply path is exposed to the spout of a nozzle for supplying water, a cylindrical body connected to the spout of the nozzle, and a far-infrared rays housed inside the cylindrical body. It consists of a radiating object.

(Function) Next, the function of the present invention configured as described above will be explained with reference to the drawings.

Now, when water is supplied to the nozzle 7 of the bubble generator 1, the flow velocity of the water reaches its maximum at the nozzle of the nozzle 7, while air is being supplied from the air supply cylinder 6 to the nozzle. Therefore,
The water ejected from the spout becomes bubbly when ejected, and this bubbly water is injected into the cylindrical body 2.

When the water injected into the cylindrical body 2 passes through the cylindrical body 2, it absorbs the far infrared rays emitted from the far infrared ray emitting object 9, and at the same time absorbs the ultrasonic waves generated when the bubble bursts. do.

Therefore, the water passing through the cylindrical body becomes dramatically activated by the simultaneous absorption of far infrared rays and ultrasonic waves, and flows out of the cylindrical body.

Further, the far-infrared ray emitting object 9 has its surface cleaned by the impact of water bubbles passing through the cylindrical body 2 or by ultrasonic waves, so that the far-infrared radiation efficiency can be maintained for a long period of time.

(Example) FIG. 1 is a front view of one embodiment of the present invention.

In the embodiment of the present invention, when water such as tap water is supplied, the cylindrical body 2 is connected to a bubble generator l that generates bubbles in the water.

As shown in FIG. 2, the bubble generator 1 has a cylindrical portion 5 which is open at both ends and has an air supply hole 4 approximately in the center thereof, and an air supply tube 6 is connected to the air supply hole 4. and,
Insert the nozzle 7 into the injection port side of the cylindrical part 5, and
A jet nozzle is made to look into the air supply hole 4, and an annular gap 11 is formed around the jet nozzle. Further, the cross section of the cylindrical portion 5 on the discharge side is formed to expand toward the discharge port.

The cylindrical body 2 is preferably a tube-shaped one made of vinyl chloride or the like, and has a plurality of grooves 8 in the length direction on its inner circumference (see Fig. 3). Instead, a protruding strip may be provided.

Inside the cylindrical body 2, as shown in FIG. 4, a plurality of cylindrical far-infrared radiating objects 9 and separators 1O of the same type are alternately housed. The outer diameter of the far-infrared emitting object 9 is
It is made sufficiently smaller than the inner diameter of the cylindrical body 2.

As the far-infrared emitting object 9, far-infrared ceramics that emit far-infrared rays at room temperature are suitable.

Further, if the far-infrared ray emitting object 9 is made cylindrical as shown in the figure, far-infrared rays can be emitted from both the inside and outside of the cylinder, resulting in good radiation efficiency.

Next, an example of use of the embodiment configured in this way will be described.

First, in use, the water inlet side of the cylindrical portion 5 of the bubble generator 1 is connected to a water faucet using any connecting means.

Next, when the tap is opened and tap water is supplied to the nozzle 7 where air bubbles are generated, the flow velocity of the water reaches its maximum at the spout of the nozzle 7, and the area around the nozzle 1 becomes negative pressure, so the outside air flows from the air supply cylinder 6. It is sucked into the cylindrical portion 5 through the gap 11.

Therefore, the water spouted from the spout of the nozzle 7.

When ejected, the above intake air is mixed and becomes bubble-like.

This bubbly water is injected into the cylindrical body 2.

In this way, when the water injected into the cylinder body 2 passes through the cylinder body 2, it absorbs the far infrared rays emitted from both the inside and outside of the far infrared emitting object 9, and at the same time, when the bubbles burst, exposed to ultrasonic waves generated by

Due to the simultaneous irradiation of these far infrared rays and ultrasonic waves, the bond angle between the oxygen and hydrogen that constitutes the water molecules is slightly shifted, and the water becomes activated.
is discharged from.

In addition, the surface of the far-infrared ray emitting object 9 and the inner peripheral surface of the cylindrical body 2 are physically ablated by the water bubbles passing through the cylindrical body 2 and cleaned by ultrasonic waves, so that the cylindrical body 2 is cleaned for a long period of time. In addition to being able to maintain a clean state within the body 2,
The radiation efficiency of the far-infrared radiation object 9 can be maintained constant over a long period of time.

(Effects of the Invention) As described above, in the present invention, water is made into bubbles, and
The bubbly water was injected into the cylinder, and when the water passed through the cylinder, far infrared rays and ultrasonic waves generated when the bubbles burst were applied to the water, so when only far infrared rays were applied, In comparison, the activation of water has improved dramatically.

In addition, in the present invention, the surface of the far-infrared ray-emitting object is constantly cleaned by water bubbles during use, so that the radiation efficiency of the far-infrared ray-emitting object can be maintained constant over a long period of time.

[Brief explanation of the drawing]

Fig. 1 is a front view showing the entire embodiment of the present invention, Fig. 2 is a cross-sectional view of the bubble generator, Fig. 3 is a cross-sectional view taken along line A-A in Fig. 4, and Fig. 4 is a cross-section of the cylindrical body. The figure shows: 1 a bubble generator, 2 a cylindrical body, 6 an air supply tube, 7 a nozzle, and 9 a far-infrared radiation object.

Claims (1)

[Claims] It consists of a bubble generator in which the end of an air supply path is exposed to the spout of a nozzle that supplies water, a cylindrical body connected to the spout of the nozzle, and a far-infrared emitting object housed inside the cylindrical body. Water quality improver.