JP2009018235A - Magnetic water purifying agent and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetic water purifying agent which treats water containing impurities, especially the water containing chlorine or bleaching powder and emitting an offensive odor to provide tasteless, odorless, and sterilized drinking water and has excellent deodorizing action and antibacterial action. <P>SOLUTION: The magnetic water purifying agent is obtained by baking a mixture, which is composed of 1-15 mass% of tourmaline, 1-15 mass% of mica and 70-98 mass% of magnetic clay, under a reducing atmosphere. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention can be used for the production of high-quality drinking water containing negative ions, and can also provide clean water by removing contaminants from dirty water such as bath water, deodorizing action and antibacterial action The present invention relates to a novel magnetic water purifier having a water content and a method for producing the same.

Usually, tap water is treated with chlorine and chlorine for the purpose of disinfection and sterilization. is doing.
Therefore, in general households and restaurants, when serving for beverages, chlorine and chlorine are adsorbed and removed through a purifier containing activated water, low-temperature baked ceramics, and a water purifier such as an ion exchange resin. Yes.

  On the other hand, tourmaline (tourmaline) has a function of activating water, and it is known that when water is treated with this, it has a health promoting effect and an environmental cleaning effect. Many proposals have been made so far.

For example, a water purification treatment agent (see Patent Document 1) comprising a molded body in which tourmaline fine particles are dispersed in a glass matrix, and a water surface activation device using granular materials obtained by electrically insulating and solidifying between tourmaline fine particles ( Patent Document 2), tourmaline fine powder, ceramic powder and silver powder mixture, pelletized water quality improver (see Patent Document 3), tourmaline fine powder in a fluidized state on the surface of porcelain and ceramic grains Water treatment that can be produced by applying active water agent (see Patent Document 4), clay, feldspar, and quartzite, applying tourmaline fine particles and water, kneading, forming into a spherical body, and firing Ceramic balls (see Patent Document 5), inorganic insulator fine particles are interposed between tourmaline fine particles, and these are fixed in a point contact state by an inorganic adhesive component. Water treatment tourmaline balls (see Patent Document 6), water purification cartridges (see Patent Document 7) using ceramic balls mixed with tourmaline, quartz, feldspar, and mica and sintered have been proposed so far. .
Further, a composite material (see Patent Document 8) that induces far-ultraviolet rays of tourmaline by electromagnetic induction by combining tourmaline and a magnetic material so as to have a laminated structure or a racemic structure, and a ceramic plate for water activation containing tourmaline and magnetite There is also known a method of causing negative ions to collide with sprayed water that has been activated (see Patent Document 9).

JP-A-9-110468 (Claims and others) JP-A-3-118894 (Claims and others) JP-A-9-157000 (Claims and others) JP-A-11-347541 (Claims and others) JP 2000-281465 A (Claims and others) JP 2001-322876 A (Claims and others) JP-A-2005-313111 (Claims and others) JP 2001-149427 A (claims and others) JP 2006-180895 A (Claims and others)

  The present invention is a magnetic water purifier having an excellent deodorizing action and antibacterial action, which treats water containing impurities, particularly chlorine and chlorine, and gives off odorless and sterilized drinking water. It is made for the purpose of providing the manufacturing method.

  The present inventors, as a result of repeated earnest research, in order to develop a water purifier that exhibits a significantly better cleaning effect than conventional water purifiers when treating tap water or polluted water with a bad odor, As a clay used when producing a calcined product containing tourmaline, a magnetic clay such as Kibushi clay or Sasame clay is used, and by adding mica as an activation accelerator, unexpectedly like ferrite It has been found that ceramics exhibiting an excellent water purification effect comparable to the case of using a magnetic material without using a magnetic material can be obtained, and the present invention has been made based on this finding.

  That is, the present invention is a magnetic water purifier obtained by firing a mixture of tourmaline 1 to 15% by mass, mica 1 to 15% by mass and magnetic clay 70 to 98% by mass in a reducing atmosphere, and tourmaline 1 to 15% by mass. A mixture of 1 to 15% by mass of mica and 70 to 98% by mass of magnetic clay is molded, and the molded body is fired at a temperature of 1000 ° C. or higher in a reducing atmosphere and then cooled in a reducing atmosphere. The manufacturing method of a magnetic water purifier is provided.

In the present invention, tourmaline used as a raw material is also called tourmaline, and has the general formula (Ca, Na) X ₃ Al ₆ (BO ₃ ) ₃ Si ₆ O ₁₈ (OH, F) _4.
(X in the formula is Mg, Fe, Mn, Li, Al)
A columnar crystal having a hardness of 7 and a specific gravity of 3 to 3.2, and has a color tone such as purple, green, red, and black depending on the type of metal contained.

  Tourmaline has the strongest permanent polarization property among minerals, and when it is made fine particles, it releases negative ions. In addition, electricity is generated by friction and stress is applied to the crystal to cause piezoelectricity. When a part of the crystal is heated, an electric charge is generated on the surface to show a pyroelectric effect.

  In the present invention, any kind of these tourmalines can be used, and in particular, Elbaite, Drabite, schol, Lidicoteite and Uvite Etc.) are preferred.

Elbite is a red or pink tourmaline based on lithium, Drabite is a brown tourmaline based on magnesium, Shawl is a black tourmaline containing a lot of iron, and Lidicoreite is a light blue or green system Tourmaline and Ubite are yellow or colorless tourmalines based on calcium and magnesium.
These are used as fine particles of usually 10 μm or less, preferably 3 to 10 μm, since the effect increases as the size is reduced.
These tourmalines may be used alone or in combination of two or more.

  In the present invention, the tourmaline content is selected in the range of 1 to 15% by mass, preferably 5 to 10% by mass. When this ratio is less than 1% by mass, the amount of negative ions generated is insufficient, and when it exceeds 15% by mass, tourmaline particles are fixed to each other, and the potential efficiency is lowered.

  This tourmaline generates negative ions and also serves as a far-infrared radiation source. By including this, biological cells are activated, and the activity of subcutaneous blood circulation is promoted. Help maintain.

Next, the mica used as one of the raw materials in the present invention is not particularly limited, but in particular biotite, Kinoshita mica, Lithia mica, pearl mica, Masutomi mica, muscovite, chrome mica, phlogopite, sericite. Whitewater mica, Tobe mica, and Chinwald mica are preferable. These may be used alone or in combination of two or more.
Since these mica have electrical characteristics that are contrary to tourmaline, they exhibit an action of promoting tourmaline negative ion release by being present between tourmaline particles.

  The content of mica in the present invention is selected in the range of 1 to 15% by mass, preferably 3 to 10% by mass. When this proportion is less than 1% by mass, the effect of promoting the generation of negative ions of tourmaline becomes insufficient, and when it exceeds 15% by mass, the generation of negative ions of tourmaline is rather inhibited.

  The magnetic clay used in the present invention is a ratio required to show magnetism of at least one selected from magnetic substances such as natural iron, natural nickel, magnetite, maghemite, Jacobsite and trolite, usually 1 10 to 10% by mass, preferably 3 to 7% by mass of clay, and Kibushi clay and Sasame clay containing these magnetic substances are particularly preferable.

This Kibushi clay and Sasame clay are mainly composed of kaolinite and halosite, and further contain quartz and sericite. In addition, kaolin and ceramic stone containing magnetic minerals can be used. Kaolin is a clay mainly composed of kaolinite, halosite, decaite and the like, and porcelain stone is mainly composed of quartz, sericite and kaolinite. In the present invention, these clays may be used in combination.
Table 1 shows an example of the composition of the above-mentioned Kibushi clay and Sasame clay.

  The content ratio of the magnetic clay is in the range of 70 to 98% by mass, and by mixing this, activation of water is promoted.

Next, the manufacturing method of the magnetic water purifier of this invention is demonstrated.
First, tourmaline, mica, and magnetic clay are mixed and finely pulverized to prepare fine particles having a particle diameter of 10 μm or less. As the fine pulverization method, either a wet method or a dry method can be used. In this example, dry pulverization is used. That is, the tourmaline raw material is pulverized from the size of a human head to the size of 3 to 6 μm. In this dry pulverization step, the jaw crusher is used to pulverize from the head size to the fist size, and the hammer crusher is used to pulverize from the fist size to a diameter of 2 to 3 cm. Next, it grind | pulverizes to a diameter of 6-7 mm using a Raymond mill, and also grind | pulverizes sequentially to a diameter of 3-6 micrometers using a ball mill. At this time, if the ore with magnetism is pulverized too finely, the magnetism may disappear, so be careful not to lose the magnetism.

Next, the mineral fine particles thus prepared are put into a kneader, an appropriate amount of water is added and kneaded to prepare a magnetic clay mixture, which is formed into a desired shape. The molded body is put into a kiln. For the wall of the kiln, a material having a high pyroelectric effect, for example, a material containing tourmaline, barium titanate, or the like may be used. The atmosphere for firing is solidified by firing at a temperature of 1000 ° C. or higher, preferably 1100 ° C. to 1300 ° C., under a reducing atmosphere, for example, under conditions where 4% by mass or more of carbon monoxide is generated in an oxygen-deficient state.
At this time, it is particularly preferable that the temperature is raised to 1200 ° C. or higher after 15 hours or longer, and then spontaneously cooled in a reducing atmosphere to produce.

  The shape of the magnetic water purification agent thus obtained is not particularly limited, but a shape having a surface area as large as possible is preferable. Examples of such a shape include a sphere, an ellipse, a hollow cylinder, a cylinder, a star, a plate, a polygon, and a bowl.

  When treating tap water with the magnetic water purifier of the present invention, the column is filled with the magnetic water purifier molded into the above shape, and tap water is passed through it, or an appropriate container is filled with tap water. Then, the molded product of the water purification agent is charged and brought into contact. As the contact time at this time, about 10 to 120 seconds is sufficient.

In addition, when purifying contaminated water using the magnetic water purifier of the present invention, for example, the magnetic water purifier is formed into ceramic balls of an appropriate size, filled into a column, and the contaminated water is continuously passed through. Do by. In this way, purification can be performed with a biochemical oxygen demand (BOD) removal rate of 25-60%.
This BOD removal rate is obtained according to the following equation, where A is the BOD value of the contaminated water and BOD is the purified water after passing through the column.
BOD removal rate (%) = [(A−B) / A] × 100

  According to the present invention, it is possible to easily remove chlorine and chlorine smell in tap water, supply high-quality drinking water to which negative ions effective for health promotion are added, and use over a long period of time. There exists an effect that the purification apparatus of possible contaminated water can be comprised.

Next, the best mode for carrying out the present invention will be described by way of examples, but the present invention is not limited thereto.
In addition, the removal rate (%) of the amount of negative ions and biochemical oxygen demand (BOD) in each example was determined by the following method.

(1) Measurement of negative ions Using the apparatus having the structure shown in FIG. 1, for the sample ceramic balls, negative ions are generated in water having the same mineral content, and the electrical conductivity of the water is measured. Indirect numerical values based on the difference.
That is, tap water is introduced from one port of a stainless steel cylindrical column (diameter 65 mm, length 250 mm) (1) packed with 500 sample ceramic balls (10), and purified water (6 ) And the purified water (6) is stored in the beaker (5) through the water conduit (2). The beaker (5) is immersed in water (4) in a constant temperature water bath (3) and kept at 21 ° C. Next, platinum electrodes (7, 7) were inserted into the purified water (6), and the electric conductivity was measured with an electric conductivity meter (8) (product name “Precision LCR meter 4285A” manufactured by Hewlett-Packard Company).

(2) Biochemical oxygen demand (BOD) removal rate The BOD of water before and after the purification treatment was measured according to JIS K 0102 21, and the BOD removal rate (%) was determined by the following formula.
BOD removal rate (%) = [(BOD value of contaminated water before treatment) − (BOD value of purified water after treatment) ÷ (BOD value of contaminated water before treatment)] × 100

Examples 1-5
Shawl powder [Na (Fe, Mn) ₃ Al ₆ B ₃ Si ₆ O ₂₇ (OH, F) ₄ ] having an average particle diameter of 5 μm, a muscovite having an average particle diameter of 5 μm and an average particle diameter in the proportions shown in Table 2 5 μm Kibushi clay powder (containing 5% by mass of magnetite) is added, the same amount of water is added thereto, kneaded using a kneader, the kneaded product is molded, and a 12 mm diameter spherical ceramic After producing balls and drying in the sun for one day, using propane gas, firing in a reducing atmosphere, that is, in an oxygen-deficient state, at a temperature of 1250 ° C. or higher for 16 hours under a condition that carbon monoxide concentration is 4% by mass or more. did. Next, the fired body was naturally cooled.
Table 2 shows the electrical conductivity (μS / cm) and BOD removal rate (%) of the spherical ceramic balls thus obtained.

Examples 6-10
In place of Kibushi clay in Examples 1-5, Iga Sasame clay (magnetite content 5 mass%) was used, and otherwise, 500 ceramic balls having the composition shown in Table 2 in the same manner as in Examples 1-5. Was made.
Table 2 shows the electrical conductivity (μS / cm) and BOD removal rate (%), which indirectly indicate the amount of negative ions generated.

Comparative Examples 1-3
When the tourmaline content and the muscovite content are 0, the tourmaline content is 3% by mass and the muscovite content is 0, the tourmaline content is 0 and the muscovite content is 3 Example 2 was repeated for the case of mass%. Table 2 shows the electrical conductivity (μS / cm) and BOD removal rate (%) that indirectly indicate the amount of negative ions generated.

As can be seen from this table, the electric conductivity (μS / cm) indirectly indicating the amount of negative ions generated is 1.83 in Comparative Example 1, 1.90 in Comparative Example 2, and 1.86 in Comparative Example 3. However, as shown in Table 2, Examples 1 to 10 show 2.06 to 2.27 μS / cm, indicating that the amount of negative ions generated is much larger than that of the comparative example.
Further, the BOD removal rate was 19.7 in Comparative Example 1, 22.2 in Comparative Example 2, and 20.5 in Comparative Example 3, but the values of Examples 1 to 10 were compared with 22.5 from 26.2. The value is much higher than that of the example, and it can be seen that the spherical ceramic ball of the present invention is extremely effective for purification of contaminated water.

  INDUSTRIAL APPLICABILITY The present invention is useful for producing high-quality drinking water by removing the chlorine odor and chalky odor of tap water and for purifying contaminated water.

Explanatory drawing of the measuring apparatus of the electrical conductivity for calculating | requiring the generation amount of a negative ion indirectly.

Explanation of symbols

1 Stainless Steel Cylinder with Ceramic Ball 3 Constant Temperature Water Tank 5 Beaker 6 Purified Water 7 Platinum Electrode 8 Electric Conductivity Meter

Claims (11)

  A magnetic water purifier obtained by firing a mixture of 1-15% by mass of tourmaline, 1-15% by mass of mica and 70-98% by mass of magnetic clay in a reducing atmosphere.   The magnetic water-purifying agent according to claim 1, wherein the tourmaline is at least one selected from Elbaite, Dravite, schorl, Lidicoteite and Uvite.   2. The mica is at least one selected from biotite, Kinoshita mica, Lithia mica, pearl mica, Masutomi mica, muscovite, chrome mica, phlogopite, sericite, white water mica, Tobe mica, and chinwald mica. Or the magnetic water purifier of 2 description.   The magnetic water purifier according to any one of claims 1 to 3, wherein the magnetic clay is a clay containing at least one magnetic substance selected from natural iron, natural nickel, magnetite, maghemite, Jacobus ore and trolite.   The magnetic water purifier according to claim 4, wherein the clay containing a magnetic substance is Kibushi clay, Sasame clay or a mixture of both.   A mixture of 1-15% by weight of tourmaline, 1-15% by weight of mica and 70-98% by weight of magnetic clay is molded, and the molded body is fired at a temperature of 1000 ° C. or higher in a reducing atmosphere and then cooled in a reducing atmosphere. The manufacturing method of the magnetic water purifier characterized by doing.   The method for producing a magnetic water purifier according to claim 6, wherein it takes 15 hours or longer to raise the temperature to 1200 ° C. or higher and calcinate, and then naturally cools.   The magnetic water-purifying agent according to claim 6 or 7, wherein the tourmaline is at least one selected from Elbaite, Dravite, schol, Lidicoteite, and Uvite. Manufacturing method.   The mica is at least one selected from biotite, Kinoshita mica, Lithia mica, pearl mica, Masutomi mica, muscovite, chrome mica, phlogopite, sericite, white water mica, Tobe mica, and chinwald mica. The manufacturing method of the magnetic water purifier in any one of thru | or 8.   The magnetic water purification agent according to any one of claims 6 to 9, wherein the magnetic clay is a clay containing at least one magnetic substance selected from natural iron, natural nickel, magnetite, maghemite, jacobus ore and trolite. Production method.   The method for producing a magnetic water purifier according to claim 10, wherein the clay containing the magnetic substance is Kibushi clay, Sasame clay or a mixture of both.

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