JP2642029B2 - Water purifier - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purifier, and more particularly to a water purifier for purifying tap water or the like to remove unpurified substances.

[0002]

2. Description of the Related Art Conventionally, there is a water purifier shown in FIG. As shown in the figure, the water purifier incorporates a filter 53 for taking in tap water or the like to be purified and collecting impurities such as nigori, iron rust and mold, and a carbon / carbon filter made of activated carbon for removing odorous gas and the like. And a filter 54.
When the tap water is purified by the water purifier, the tap water to be purified is guided to the filter 53,
Iron rust, mold and the like are removed, and the carbon filter 54 is used to remove contaminants and the like.

[0003]

The conventional water purifier cannot completely remove chlorine (Cl ₂ ) and the like in contaminated tap water which causes terrible harm to the body. On the other hand, if you try to completely remove the chlorine, calcium (Ca ⁺⁺ ), potassium
(K ⁺ ) is also removed. In addition, depending on the water purifier according to the conventional example, the water that has been polymerized in a long chain does not sufficiently adhere to the cell membrane of a living organism, thereby maintaining the freshness of the cell. There is a problem that activation and activation may be inhibited.

Accordingly, the present invention removes chlorine and the like in contaminated tap water that causes terrible harm to the body. It is an object of the present invention to provide a water purifier that can obtain water useful for the body by cutting a chain of water that has been polymerized.

[0005]

Means for Solving the Problems To solve the above technical problems, a first invention is to provide a pre-filter for collecting relatively large unpurified substances such as nigori, iron rust and mold by taking in tap water or the like. 30 and after passing through the pre-filter 30, Mg
⁺⁺ Ultra-fine pores capable of removing inorganic and organic minerals such as ions are provided.
0, a membrane filter 10 which takes in water from which relatively large unpurified substances have been removed and collects unpurified substances which have not been removed by the pre-filter 30, and a wavelength in a far-infrared region capable of cutting off polymerization of water molecules. An electromagnetic wave radiating substance and a useful metal element-containing substance that radiate an electromagnetic wave having the following are provided: water from which unpurified substances have been removed by the pre-filter 30 and the membrane filter 10 is irradiated with the electromagnetic wave and ionized useful A mineral filter for supplying metal, and a carbon filter for removing odorous gas from water passing through the mineral filter.
0, and an unpurified substance discharging section 90 for discharging the unpurified substances collected by the membrane filter 10. According to a second aspect, in the first aspect, the membrane filter 10 is formed in a thin film shape, and provided in a layer along a water supply direction in a tank to which water is supplied from above. A purified water recovery pipe 91 surrounded by the membrane filter 10 and closed at the upper end and provided with a large number of holes in the upper side surface 92a and not provided with holes in the lower side surface 92b; And a discharge pipe 93 for discharging water containing unpurified substances accumulated outside the lower side surface 92b;
1 and a delivery pipe 95 for delivering water from which unpurified substances have been removed by the membrane filter 11.

[0006]

[Action] Tap water, etc., to be purified is transferred to the membrane /
Take in filter 10. Here, a “membrane filter” is a thin film-like filter medium suitable for capturing extremely fine particles.
The material is nitrocellulose, cellulose ester, or the like. Ultra-small diameter is relatively uniform, 0.001 μm
To 0.01 μm, preferably 0.001 μm to 0.00
There are various types up to about 5 μm. It is used to collect and remove dust, bacteria, parasites, pesticides, radioactive contaminants, highly toxic dioxins, trihalomethanes, chloroacetic acids and cells that are highly carcinogenic chlorine compounds. The membrane filter 10 extracts unpurified substances from the introduced tap water or the like by reverse osmotic pressure. Here, the "reverse osmotic pressure" is not the pressure at which water permeates and passes through a very small hole like the osmotic pressure, but the ultra-small pressure which cannot pass without strong external water pressure. This refers to the pressure applied when water passes through a porous membrane. This membrane using reverse osmotic pressure is called a reverse osmosis membrane, and even smaller viruses from all bacteria, and chlorine, a chemical substance, Ca ⁺⁺
Even minerals such as Mg and Mg ⁺⁺ cannot be passed through these ultrafine pores and are removed. When one of the osmosis membranes goes down, the other goes up. However, the reverse osmosis membrane is also based on the nurser principle, and both are down, and the principle of the reverse osmosis membrane is to desalinate seawater.
On the other hand, a hollow fiber membrane is a membrane that removes bacteria up to the size of bacteria.
It removes odors without passing them. Therefore, the membrane filter 10 according to the present invention is considered to be intermediate between the hollow fiber membrane and the reverse osmosis membrane.

[0007] Water taken into the membrane filter 10 is cut into clusters of water by the ultra-fine holes. The cut water has an ideal water (H ₁₂ O ₆ ) structure for polymerization of six water molecules. Moreover, these six waters (H ₁₂ O ₆ ) include bacteria, pesticides, chlorine, etc. as described above, salt (NaCl), and inorganic ^substances such as Ca ⁺⁺ and Mg ⁺⁺ necessary for the body described later. , It becomes true pure water with even all the organic minerals removed. The H ₁₂ O ₆ water thus formed is bonded at a bonding angle of 104 degrees, exists as ideal pure water having a small volume and a high specific gravity, adheres sufficiently to cell membranes, and keeps cells fresh. Furthermore, it penetrates into the cell from the cell membrane, calls Ca ⁺⁺ at that time, and activates and activates the cell. In addition, the ideal water thus produced may temporarily exhibit abnormal fluctuations from 95 degrees to 160 degrees, in which case higher energy is incorporated. In this manner, unpurified substances are collected by the ultra-fine holes of the membrane filter 10, and pure water from which tap water clusters have been cut is introduced into the mineral filter 20. The mineral filter 20 is provided with an electromagnetic wave radiating substance that emits an electromagnetic wave having a wavelength in the far-infrared region and a substance containing a predetermined metal element. Therefore, far-infrared rays are radiated by the electromagnetic wave radiating substance to the taken-in water. Here, the wavelength in the region particularly suitable in the present invention is an electromagnetic wave having a wavelength of several μm to several tens μm among electromagnetic waves belonging to the “far-infrared region”. Examples of the “electromagnetic radiation material having a wavelength in the far-infrared region” include, for example, tourmaline platinum colloid ceramic and ceramic amphibolite (included in granite). "Useful metal element-containing substances"
Is a substance that emits metal ions that are good for the body, such as minerals such as Ca ⁺⁺ and Mg ⁺⁺ , such as natural coral and ceramic amphibolite. The electromagnetic radiation material is
By radiating the electromagnetic wave having the wavelength of several μm to several tens μm, the long polymerization of the water is cut off, and the necessary mineral component removed by the membrane filter 10 is supplied. Here, the long polymerization of water is mediated by a nitrogen compound, but has a short half-life even if the polymerization of water is cleaved, so that it is connected again at a bad angle. Actually, with electromagnetic waves having a wavelength of several μm to several tens of μm, not only is chlorine not sufficiently removed, but also the binding action of nitrogen compounds is strongly maintained for a long period of time. Also, an ideal cluster of 5 to 6 water molecules cannot survive. However, in the present invention, the nitrogen compound that is the true cause of the polymerization of water is removed by the membrane filter 10,
The polymerization of water for cutting a long chain is completely cut off by the micropores, so that pure water can be maintained indefinitely. Further, electromagnetic waves in the far-infrared region, especially several μm
Radiation of an electromagnetic wave having a wavelength of about 10 μm does not give a feeling of fatigue or heat even when used for a long period of time on a human body, and is absorbed by the human body to give a good effect. For electromagnetic waves in other wavelength ranges, long-term use causes heat generation and fatigue, and further causes destruction of the outer membrane of cells.

Further, in the present invention, the membrane filter 10 is provided with an unpurified substance discharging section 90 for removing the unpurified substances collected by the membrane filter 10. As a result, the membrane filter 10 can be washed, pollutants can be discharged, and water can be purified safely and reliably.

FIG. 2 and claim 2 show a more specific embodiment of the unpurified matter discharge section 90. As shown in the figure, the unpurified matter discharge section 90 is composed of a purified water recovery pipe 91 having a closed upper end having an upper side surface 92a through which water can pass and a lower side surface 92b through which water cannot pass.
It is provided in the filter 11. The water taken into the membrane filter 11 passes through an ultra-fine hole provided in the membrane of the membrane filter 11, thereby passing through a hole provided at the upper side of the purified water recovery pipe 91. Into the purified water recovery pipe 91, and
5 and enters the next mineral filter 21. Substances such as bacteria and chlorine collected when passing through the ultra-fine holes accumulate below the outer side lower portion 92b of the purified water recovery pipe 91 and are discharged through the discharge pipe 93. become.

[0010] Further, as shown in FIG.
When taking in tap water or the like to be purified into the membrane filter 100, a pre-filter 30 is provided,
This is performed after collecting relatively large unpurified substances such as iron rust and mold. Further, a carbon filter 40 is provided for removing malodorous gas from water that has passed through the mineral filter 20.

[0011]

Next, a water purifier according to an embodiment of the present invention will be described with reference to FIG. As shown in the figure, in this embodiment, a pre-filter 3 for taking in tap water or the like and collecting relatively large unpurified substances such as nigori, iron rust, and mold, and an ultra-fine hole are provided. And the pre-filter 3
Membrane filter 1 which takes in water from which relatively large unpurified substances have been removed, and collects unpurified substances not removed by the prefilter 3 by reverse osmotic pressure.
An electromagnetic wave emitting material that emits electromagnetic waves in a wavelength range of several μm to several tens of μm belonging to the far infrared region and a useful metal element-containing material are provided, and the water from which unpurified substances have been removed by the membrane filter 1 is provided. A mineral filter 2 for irradiating electromagnetic waves and supplying ionized metal;
A carbon filter 4 for removing odorous gas from water passing through the mineral filter 2, a tank 5 for storing water passing through the carbon filter 4, and a faucet 6 provided in the tank are provided. Things. here,
0.001μ of ultra-fine holes of the membrane filter 1
m to 0.005 μm. Further, as the "electromagnetic radiation material", tourmaline, platinum, colloid, ceramic is adopted, and the "useful metal element-containing material"
As the "useful metal element", useful metals such as alkali metals such as Ca and Mg and alkali earth metals useful for the body are used.

Further, a thin film 1a made of nitrocellulose or the like is arranged in a layered manner inside a tank for accommodating the membrane filter 1, and an unpurified material discharging section 9 for discharging the collected unpurified material is provided. Is provided. Further, as shown in FIG. 4, the unpurified substance discharge section 9 is closed at the upper end provided in the membrane filter 1 and having an upper side surface 19a through which water can pass and a lower side portion 19b through which water cannot pass. Purified water recovery pipe 19 and the purified water recovery pipe 1
9, a discharge pipe 29 for discharging water containing collected unpurified matter accumulated in the lower part of the side surface 19b and a valve 29a for opening and closing the discharge pipe 29 are provided. At the lower end of the recovery pipe 19, the membrane
A delivery pipe 31 for sending out purified water collected by removing unpurified substances by the filter 1 is connected.

Next, a procedure for using the water purifier according to the present embodiment.
Will be described. Tap water to be purified
Incorporate in 3 With the pre-filter 3,
Relatively large rust, mold, chlorine, odor, dirt, etc.
Unclean material is collected. Compared by the pre-filter 3
The water from which large unpurified substances have been removed is
It is led to Luta 1. The membrane filter 1
The pressure of the inserted water is defined as the reverse osmotic pressure,
By passing through the hole, the sample is collected by the pre-filter 3.
Collect relatively small unpurified material that has not been removed. Unclean
The purified water from which the chloride has been removed is provided in a purified water recovery pipe 9.
Into the purified water recovery pipe 19 through the hole
It enters the mineral filter 2 through 31. here
Therefore, “relatively small unpurified substances” include dust, bacteria,
Poisonous die, a live insect, pesticide, and a carcinogenic chlorine compound
Contains oxine, trihalomethane, chloroacetic acid, etc.
You. In the membrane filter 1, 0.00
1 μm to 0.005 μm ultra-fine pore filter long
The water in the chain is passed by hydraulic pressure,
Because of the ultra-small size, the water chain is broken
ing. Here, most of the cut water is water molecules 6
(5-6) water (H₁₂O ₆) Structure
It has become. Moreover, these six waters (H₁₂O₆) Is before
As described above, one fungus, pesticides, chlorine, etc., and salt (Na
Cl), but also the Ca ⁺⁺, Mg⁺⁺Nothing
And pure water from which all organic minerals have been removed.
You.

The pure water thus obtained enters the mineral filter 2 and is exposed to electromagnetic waves from the electromagnetic radiation material in the far-infrared region, and causes the metal ionized from the useful metal element-containing material to flow out. Here, the ionized metal is supplied by the membrane filter 1 in addition to the pollutants harmful to the human body and the mineral ions necessary for the body such as Mg ⁺⁺ , Ca ⁺⁺ , Fe ⁺⁺
Is also removed. Therefore, in the present mineral filter 2, Mg which is good for the body is used as an example of the ionized metal.
⁺⁺ , Ca ⁺⁺ , Fe ^++, etc. are supplied. The far-infrared radiation material is an electromagnetic wave of about 4 to 14 microns (μm). With the electromagnetic wave of 4 to 14 microns (μm) radiated from the electromagnetic wave emitting material, the water chains physically cut by the ultra-small holes and the water pressure are further cut to obtain a long polymerization of water. Disconnect. Thus, for the membrane filter 1,
Useful to the body, the required Ca ^++, even minerals Mg ⁺⁺ or the like is removed, has a mechanism which gives the minerals required for the water to become only pure water H ₁₂ O _6. In this way, the necessary minerals are added and the long chain cut water finally travels to the carbon filter 4 where the action of activated carbon removes odors and gases and makes the water mild. The obtained water is stored in the tank 5,
It is put out from the faucet 6 at the time of use. In this embodiment, the valve 29a provided in the discharge pipe 29 of the unpurified substance discharge section 9 provided in the membrane filter 1 is, for example, one valve.
Opening once a day allows water to pass through the membrane filter 1 for cleaning. Normally, the unpurified substances are automatically separated in the membrane filter 1 and flowed out. However, this periodic cleaning enables enhancement of the purification performance and continuous use for a long time.

Thus, according to the present embodiment, harmful substances such as chlorine, trihalomethane, pesticides, mold, bacteria, and odor are removed by the membrane filter 1, and instead, C is removed.
Minerals necessary for the human body such as a ⁺⁺ and Mg ⁺⁺ are retained, and the purified water is used to filter nitrogen compounds, which are responsible for the true polymerization of water, into ultra-fine filters. , And further cut the long chain with ultra-fine holes, and with the electromagnetic wave emitting material, 4 to 14 microns (μm)
By the action of the electromagnetic wave, the polymerization of water is completely cut off. Further, in the present embodiment, water is taken into the membrane filter after relatively large unpurified substances are removed by the pre-filter, so that the membrane filter is prevented from being dirty and clogged by the unpurified substances. For a long period of time, it is possible to perform stable water supply without mixing of unpurified substances. Further, in the present embodiment, since the unpurified matter accumulated in the membrane filter 1 is discharged by the unpurified matter discharging section 9, the unpurified matter flows back into the water or the membrane filter 1 Prevents dirt and clogging, and does not mix unpurified substances for a long time.
A stable supply of water can be performed. Further, in this embodiment, since the carbon filter 4 is provided,
Offensive odor gases can be removed to provide odor-free water. In the above-described embodiment, the unpurified substance discharging portion is provided only in the membrane filter.
The present invention is not limited to this case. For example, the pre-filter 3 may be provided. Thereby, the pre-filter 3
Can be used for a long time. Further, natural coral was used as a useful metal element-containing substance of the mineral filter, but without being limited to this case, the tourmaline platinum colloidal ceramic or ceramic amphibolite or a mixture of these is used. be able to.

[0016]

As described above, in the water purifier according to the present invention, by using a combination of a membrane filter and a mineral filter, harmful substances such as chlorine and trihalomethane are removed from the human body. Minerals such as Ca ⁺⁺ and Mg ⁺⁺ necessary for
In addition, the present invention provides water that has a favorable effect on the human body by cutting off the polymerization of water by irradiating electromagnetic waves in the far infrared region.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the principle of the present invention.

FIG. 2 shows an embodiment of the present invention.

FIG. 3 is a block diagram showing another embodiment of the present invention.

FIG. 4 is a sectional view according to the embodiment.

FIG. 5 is a block diagram according to a conventional example.

[Explanation of symbols]

 10.1 Membrane filter 20,2 Mineral filter 30,3 Prefilter 40,4 Carbon filter 5 Tank

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location C02F 1/68 520 C02F 1/68 520N 540 540A 540B 540D 9/00 502 9/00 502D 502F 502H 503 503A

Claims (2)

(57) [Claims] [1] Incorporating tap water, etc.
To collect relatively large unpurified materials such as
A filter (30), after passing through the pre-filter (30), Mg ⁺⁺ ions and the like free of
Machine, ultra-fine holes capable of removing organic minerals are provided, and by the reverse osmotic pressure, the pre-filter (30)
Take in water from which relatively large impurities have been removed
A membrane filter (10) for collecting unpurified substances not removed by the pre-filter (30), an electromagnetic wave radiating substance that emits an electromagnetic wave having a wavelength in the far infrared region capable of cutting off polymerization of water molecules, and a useful metal element containing material is provided, wherein the water non-purification product has been removed by the pre-filter (30) and the membrane filter (10) is irradiated with the electromagnetic wave, and mineral filter supplies useful metals ionized (20 ) And water passing through the mineral filter (20)
A purifier comprising: a carbon filter (40) for removing odorous gas; and an unpurified substance discharging section (90) for discharging unpurified substances collected by the membrane filter (10). 2. The membrane filter (10)
Inside a tank formed as a thin film and supplied with water from above
The filter is provided in layers along the water supply direction, is surrounded by the membrane filter (10), and has an upper end closed.
Many holes are provided in the upper side (92a)
Purified water collection with no holes in the lower side (92b)
A pipe (91) , provided below the outside of the purified water recovery pipe (91),
Drain water containing unpurified substances accumulated outside the lower part (92b).
And a delivery pipe (95) connected to the lower end of the purified water recovery pipe (91) for sending out water from which unpurified substances have been removed by the membrane filter (11). The water purifier according to claim 1, wherein: