JP2008110270A - Fluid purification activity arrangement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide (i) a technique to cover and include the surface of permanent magnet doubl with a synthetic resin to carry out corrosion protection treatment, (ii) a technique to remove an impurity in a fluid (water) and to provide a mineral after activation, and further (iii) a technique to activate a fluid (liquid fuel) to enhance combustion efficiency. <P>SOLUTION: (i) Layers 1 and 2 are joined after covered, included and contact-bonded with a bag-shaped polyvinyl chloride sheet and high-pressure polyethylene sheet. (ii) An adsorption ceramic ball or a radioactive ceramic ball is solely mixed or mixed at a suction port, a mineral ceramic ball is placed at a discharge port, electric stone containing ceramics are provided at a magnetic part, and the permanent magnet is provided in a fluid passing through in each inner tube made of infrared radiation ceramics. (iii) The radioactive ceramic ball is placed at the suction port and the discharge port, and the electric stone containing ceramics at the magnetic port, and the permanent magnet is provided in the fluid passing through in each inner tube made of the infrared radiation ceramics. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention purifies fluids such as drinking water and brewing water and liquid fuel by using a filter medium and magnetic force, and increases the activity rate and at the same time passivates the inside of a metal pipe and a method of using these techniques It is about.

  Conventionally, as water purification treatment, a filter layer is provided and various ceramic balls etc. are laid and deployed, filtered, or tourmaline (tourmaline) is processed into a molded product, which is permeable to the water channel. When the liquid passes through the magnetic field by using a technology to passivate the water pipe at the same time as the far-infrared effect, or using a magnet, the liquid is unstable due to the interaction between the magnetic moment of the liquid molecules and the magnetic field. Various methods such as a water purification technique using an active state, an ion exchange resin method, and an ozone sterilization method have been used.

  In addition, dewaxers are used for liquid fuels. Dewaxers have a viscosity even at −50 to −60 ° C. when a magnetic field is applied to the liquid fuel (the liquid fuel passes through the magnetic field). In Japan, dewaxers that use electromagnets are widely used, and in Daqing Oil Field, China, permanent magnets are attached to oil pipes and pipes are transported even in the coldest months.

  Household water, industrial water, etc. in urban areas are supplied from public water treatment plants, and simple waterworks and wells are used in the countryside outside urban areas.

Most of the water purifiers and equipment used for household use are made of ceramic, and the outline is shown below (a). Kinetics and radicalization of water by infrared (tourmaline itself is an infrared emitter),
(B) Infrared radiation ceramic balls or powders using the same material are applied to the inside of the tube (not baked) to make the water radical,
(C) Ceramic balls and the like have zeolite ceramics, diatomaceous earth ceramics, and porous ceramics as adsorption ceramics, and infrared radiation ceramics are known as red, black, white ceramics, tourmaline ceramics, etc., as antibacterial ceramics Copper ion ceramics, silver ion ceramics are used as radiation ceramics, monazite ceramics, uranium ceramics, etc. are used according to their applications, and more recently semi-molten mineral ceramics are also on sale.
(D) Radialization of water by permanent magnets utilizing water activation by magnetism,
(E) The ion exchange resin method (f) using a monopet type pure water apparatus, the ozone sterilization method using a small ozone sterilizer, etc. are widely known and used widely.

  Of these, the ozone sterilization method and the ion exchange method are expensive and require space (for equipment). (A) Tourmaline ceramics, (B) Infrared radiation ceramics and pipe coating using the same materials, (C) Mixed use of various ceramic molded bodies, (D) Permanent magnet usage , Etc. are widely known and used.

The tourmaline ceramic of (a) has a problem in the effect of the molded body (for example, ceramic balls) due to poor blending and excessive firing.
As for the infrared radiation ceramic of (a), it is difficult to mix white, black and red, and apart from the patented ones, there are generally many poor ones and many incompletely fired ones. , Powder coated with the same material is peeled off in a short period of time by the water flow in the pipe and is not useful.
The various ceramics in (c) are the same as in (a). Regarding the usage of permanent magnets in (d), ignoring the relationship between the residual magnetic flux density, magnetizing force, and energy product, which are the characteristics of the magnet. In addition, the perception between magnets is widely penetrated, the magnetizing force against water etc. is small, and the fatal technical defect is that the permanent magnet is penetrated from the outside of the metal tube ignoring the relative permeability. In this case, the magnetizing force exerted on the fluid (water, liquid fuel, etc.) in the tube is equal to 0 no matter how strong a permanent magnet is made to penetrate outside the tube.

  The present invention is a novel and inventive invention that corrects the above drawbacks, grasps the characteristics of each material, devise dredging design, shape design and penetration technology, etc. In addition to activation, a technique for providing an effect on liquid fuel is also provided, which will be described in detail below.

Tourmaline is an aluminosilicate mineral that has a complex chemical composition and is produced from contact metamorphic rocks such as gneiss, in addition to being produced as an associated mineral of granite. , Also a group of cyclosilicate minerals containing boron,
The general formula is NaR ₃ Al ₁₆ B ₃ SiO ₂₇ (OH · F ₁ ) ―――――――――― (A)
However, R: Any of Fe ²⁻ , Mg ²⁻ , or (Al + Li),
WX ₃ B ₃ Al ₃ (Al · Si · O ₉ ) ₂ (OH · O · F) ₂ ――――――――― (B)
^{However, W: Na, Ca, X} : Al, Fe 3-, Li, Mg
In _short, a mineral that contains Na, Li, Al, Fe or the like as an ion in the _{Al 2 O 3 · B 2 O} 3 · SiO 2 structure, piezoelectric (voltage generator is pressed: piezoelectricity) It is known as a mineral that has permanent electrodes with the properties of pyroelectricity (voltage generation: pyroelectricity when heated), and is used for polarizers, pressure sensor static electricity removal, water surface activation treatment, infrared radiation, etc. However, in the present invention, the inner cylinder is planned to be provided as a germanium ceramic body in the inner cylinder for the purpose of generating weak current, (−) ions, infrared radiation, etc. However, it is planned to manufacture the inner cylinder directly (with the purpose of passivating the metal pipe).

  Infrared rays refer to electromagnetic waves in the red wavelength range from 0.76 μm to 1000 μm, but generally, from 0.76 μm to 2.5 μm, it excites thermal motion in the material. The effect of raising the temperature is high, so it is called a heat ray, and the wavelengths from 2.5 to 25, 30, and 50 μm are called mid-infrared, and the electromagnetic waves from 25, 30, 50 to 1000 μm are called far-infrared. It is not a definitive definition.

In general, infrared radiation material materials are classified into white and colored materials.
ZrO ₂ (zirconia), ZrSiO ₁ (zircon), SiO ₂ (silica), MgO (magnesia), 2MgO · 2Al ₂ O ₃ · 5SiO ₂ (cordierite), Li ₂ O · Al ₂ O ₂ · 4SiO ₂ (β _{Supojun), Al 2 O 3 · 3SiO} 2 ( mullite), TiO ₂ (titania), TiB (titanium _{boride), Al 2 O 3 · TiO} 2 ( titanium aluminum) and the like are known, which like the It is effective for infrared radiation having a wavelength of 5 μm to 1000 μm.

Known materials as colored infrared emitting material materials include:
Cu ₂ O, CuO (copper oxide), CoO, Co ₃ O ₄ (cobalt oxide), NiO (nickel carbide), MnO ₂ (manganese oxide), Fe ₂ O ₃ (iron oxide), Cr ₂ O ₃ (chromium oxide) ), SiC (silicon carbide) ZrC (zirconium carbide), TaC (tantalum carbide), and the like. These colored raw materials have good radiation efficiency in the entire wavelength region from 0.76 μm to 1000 μm.

The following materials are used in combination with each of the above-mentioned radiation materials. These are called high-efficiency infrared radiation materials and are widely used. , Name omitted)
MnO ₂ —Fe ₂ O ₃ —CuO—CoO, MnO ₂ —Fe ₂ O ₃ —CoO—CrO ₃ ―――――― Colored ZrO ₂ —Al ₂ O ₃ —TiO ₂ , ZrSiO ₄ —Al ₂ O ₃ -TiO ₂ ――――――――――― White

In the present invention, colored NnO ₂ —Fe ₂ O ₃ —CoO—CrO ₃ is employed because the water absorption characteristics are 3 μm, 6 μm, and 10 μm to 12 μm, which is the most efficient in experience. Although the effective wavelength of liquid fuel is not yet elucidated at present, it is a substance that effectively emits infrared light in all wavelength regions. In the present invention, which should match the absorption wavelength, it is used for the inner cylinder, so that the appearance is black and does not appear, but since the mechanical strength is large, it can sufficiently withstand the flow resistance.

  The mechanism of purification and activation of fluid (water, liquid fuel, etc.) by a permanent magnet is that when fluid passes through a magnetic field at a certain speed, the fluid molecule is excited by the interaction between the magnetic moment of the fluid molecule and the magnetic field, As a result, it is understood that an unstable active state phenomenon occurs. This is also the case with liquid fuel. When water is activated, fluorine and nitrogen nitrate contained in the water are activated. In the case of liquid fuel, the intermolecular bond is broken and the viscosity is reduced. Is an application of this that is called “fluid activation device”, and a typical example is a dewaxer (crude oil freeze protector). A theory in one field was industrialized That.

  The present invention is a combination of ceramic theory, infrared engineering, radiation physics, and part of the same chemistry, which is a field of ceramic engineering in the above theory, and this is named “fluid purification activation device”. It is a thing.

  The permanent magnet employed in the present invention has a residual magnetic flux density of 1500 gauss (150 mT) and L (length), W (width), and t (thickness) of 95, 30, and 3 to 3.3 mm. , T is a double-sided bipolar barium ferrite magnet having an N pole on the front side and an S pole on the t back side.

  This (permanent magnet) is divided into two stages in the upper and lower (left and right) near the center in the length direction of the casing (outer cylinder) which is a part of the “fluid purification activation device” which is a part of the present invention. The upper and lower sides (left and right) of each floor are provided with grooves in the portions where the permanent magnets are in contact with each other, and the permanent magnets are fitted. The distance between the permanent magnets in each stage, which is formed through a total of 8 sheets, is 40 mm or less when the residual magnetic flux density is 150 mT, and 30 mm or less when the residual magnetic flux density is 100 mT. This is based on Faraday's law of electromagnetic induction. Generally, t (v) = B · L · V, where E is voltage (V), B is residual magnetic flux density (T), L is magnet length (m), and v is The flow velocity (m / sec) is 40 m when the overall judgment result is 150 mT considering the effective magnetic field in the equation. Within, in the case of 100mT, equal to or less than 30mm.

  The ceramic balls deployed in the suction section are adsorbed ceramic balls in the case of water, and monazite ceramic balls in the case of liquid fuel. Direct water supply type, indirect water supply type, and simple water supply type can be classified, but in each case, red rust is generated because water is passed through metal pipes. However, it is obliged to install a water storage tank and an elevated water tank according to the standards and is obliged to clean it at least once a year. However, algae are generated, so water is supplied with organic matter such as bacteria in addition to red rust. This is also the case with the simple water well type. More recently, the occurrence of trihalomethane (carcinogen) due to the combination with humic organic substances due to river pollution has been regarded as a problem. Adsorb part Adsorbed ceramic balls are provided in the suction section for the purpose of the above. In the case of liquid fuel, monazite ceramic is provided because it is refined and does not require filtration. The ceramic balls have a radioactivity of 370 Bq / g. It has the function to excite the atoms and molecules of the fluid by the α, β, and γ rays emitted from this, and to make the cluster radical (the same as the above when deployed in the water suction part) Act).

  The ceramic balls deployed in the discharge section are mineral ceramic balls in the case of water, and monazite ceramic balls in the case of liquid fuel. Both water and liquid fuel are excited by a strong magnetic field and are radial. In the case of water, atoms and molecules are decomposed not only to fluorine but also to minerals such as nitrogen nitrate, calcium, zinc, etc., and to the umami and mellowness peculiar to the water. In order to release (elute) calcium and other minerals by disposing a mineral ceramic ball in the discharge part, in the case of liquid fuel, a fluid that is radicalized by the action as described in (0019) above. Is for further miniaturization.

  In the casing (outer cylinder), three partitions are provided, the partition between the suction part and the No1 magnetic field unit is the No1 partition, the partition between the No1 magnetic field unit and the No2 magnetic field unit is the No2 partition, The partition between the No. 2 magnetic field part and the discharge part is the No. 3 partition, and the member of each partition is made of phenol resin (trade name, bakelite). The resin is resistant to water, acid, oil, heat, and electricity. The No1 and No3 partitions, which are also insulators, have a thickness of 15 to 20 mm, and the No2 partition has a thickness of 20 to 25 mm. Infrared emitting material is present on the outer periphery of the No. 1 magnetic field part, which is about 1 mm wider (larger) than the outer periphery of the permanent magnet, provided with a groove that is a recess having a depth of about 3 to 4 mm, and in which the permanent magnet is fitted. The ceramic inner cylinder is in close contact with the upper part of the No1 partition and the lower part of the No2 partition Tourmaline containing ceramic inner cylinder present in No2 field outer periphery is in close contact with the No2, No3 隔床.

As the ceramic to be deployed in the suction part, if water is the target, an adsorbing ceramic is adopted. The adsorbing ceramic is a zeolite ceramic. A diatomaceous earth ceramic, a porous ceramic, etc. are known. As an adsorption ceramic deployed in the present invention, a zeolite ceramic ball having a diameter of about 10 mm and a diatomaceous earth ceramic ball are used. The zeolite has an intermolecular void space (angstrom: 10 ^{− 8} cm), and the diatomaceous earth ceramic balls have a pore size of μm, and zeolite has a cation exchange capacity. These ceramic balls are mixed at an arbitrary mixing ratio and stored in a mesh bag. If the target is liquid fuel, the monazite ceramic ball, which is a monazite ceramic ball having a diameter of about 10 mm, is housed in a mesh bag and deployed in the suction part. Fluid molecules are radicalized by radioactivity as described in No. , It is sent to the magnetic field.

As ceramic balls used in the discharge section, mineral ceramic balls are provided when water is used. Mineral ceramic balls include calcium ceramic, shell ceramic, zinc ceramic, copper ceramic, and manganese ceramic. As ceramic to be deployed in the invention, calcium ceramic and shellfish ceramic are adopted, and the ceramic is made into a ball of about Φ10 mm and deployed in a mesh bag,
In the case of liquid fuel, adopt monazite ceramic balls, make this a ball of about 10 mm, put it in a mesh bag, and deploy the discharge part d
Both calcium ceramics and shellfish ceramics are calcium-based ceramics, but shell ceramics are antibacterial but difficult to elute, whereas calcium ceramics are easy to elute but not antibacterial, other heavy metal minerals Since there is no data for guaranteeing the quality of ceramics, the effectiveness of monazite ceramics is adjusted as described in (0019).

The casing (outer cylinder) of the “fluid purification activation device” which is a part of the present invention employs 18-8 stainless steel, which is 18% chromium, 8% nickel and 0.08% carbon. And the balance is an iron alloy that does not rust and does not magnetize. The casing consists of three parts, the first part is the suction part, the second part is the magnetic field part, and the third part is the discharge part. And they are all fitted together.
In the first invention, the suction part of the first part is sealed at the end (bottom) in the length direction (L direction) of the casing, and the other (upper part) is opened, and is continuous with the magnetic field part of the second part. In the second discovery, the suction port is fixed and penetrated at right angles to the L direction, and in the second invention, the suction port is fixed and penetrated in parallel to the L direction. It is transparently provided in the part (bottom part).

  The second part magnetic field part is in the casing L direction, the first part suction part is provided with a No1 lower partition, and the No2 magnetic part space is passed through the No2 intermediate partition. The No. 3 magnetic field part space penetrates the No. 3 upper floor, and the No. 1 magnetic field between the No. 1 and No. 2 diaphragms has an inner tube made of an infrared radiation ceramic in close contact with the No. 1 and No. 2 diaphragms. The No. 2 magnetic field outer peripheral portion between No. 2 and No. 3 partitions has a tourmaline-containing ceramic inner cylinder in close contact with the upper and lower partitions, and the magnetic field portion is the first invention, the second. Shared with the invention.

  The discharge portion of the third part is sealed at the top (end) of the casing (outer cylinder) L direction, and the other, the No3 partition side is opened and continues to each magnetic field portion. The discharge port is the first invention. Then, in the second invention, it is fixed and transparently provided at the end (top) of the central portion in a direction perpendicular to the casing L direction, parallel to the casing L direction.

The permanent magnets provided in the No. 1 and No. 2 magnetic field portions are Ribarium ferrite magnets as described in (0017). The composition of the barium ferrite magnets is as follows: Fe ₂ O ₃ : 5 to 6 mol, BaO: 1 mol to SiO ₂ Is sintered at around 1400 ° C. after being blended in a small amount, and is therefore a metal, which is a metal and is particularly susceptible to rust because of the excitation of molecules by magnetic force, and its physical properties are similar to ceramics (Moloy, It is said to be a ceramic magnet (hard and easy to break), but it is actually a metal that easily rusts. In the prior art, many permanent magnets are provided from the outside of the metal tube in the case of water purification, as described in (0007) magnetizing force on the fluid inside the tube is 0 estimated, the way the permeability of the iron is ¹⁰ 4 to 10 ⁵ Co is 270, Ni 180, copper and aluminum 1 der In the present invention, since a permanent magnet is inserted in a fluid (liquid), naturally, a rust prevention treatment is necessary. As a result of repeated trial and error, the inventors have covered the permanent magnet. Solved, that is, the first layer was coated and wrapped with a vinyl chloride sheet, the second layer was coated and wrapped with a high-pressure polyethylene resin sheet, the packing temperature was 50-60 ° C., and the Curie temperature was not affected It has been confirmed by experiment that this cladding can sufficiently withstand a flow rate of 5 m / s. In the case of liquid fuel, there is no need for cladding.

  Between the casing (outer cylinder) and the infrared radiation ceramic inner cylinder at the outer periphery of the No1 magnetic field part of the No1-No2 partition, and between the tourmaline-containing ceramic inner cylinder at the outer periphery of the No2 magnetic field part between the No2-No3 diaphragm and the casing (outer cylinder) The buffer material is made to pass through, but this is made of foamed vinyl chloride and is performed over 2 to 3 until the thickness reaches 10 mm. It is for protecting.

As described above, the “fluid purification activation device” according to the present invention has been described in detail, but the present invention includes the first invention and the second invention,
The first invention is a so-called “vertical type” in which the casing stands upright in the L direction (length direction), and the second invention is a so-called “horizontal type” in which the horizontal direction and the L direction are parallel to each other. Is,
The present invention is completed by placing a predetermined ceramic ball in the mesh bag in the apparatus and arranging the suction part and the discharge part.
Incidentally, the flow velocity of the fluid passing through the apparatus of the present invention is based on 2 m / s, which is roughly equal to the flow velocity of the city water supply. On the side, a suction-type pressurizer may be transparently provided.

Results of invention

The first aspect of the present invention is a “vertical type” “fluid purification activation device”, which is mainly intended for water.
(A) Adhesive ceramic balls or monazite ceramic balls are placed in a single or arbitrarily mixed in the inhalation part.
When adsorbing ceramic is deployed, fine dirt, bacteria, etc. are adsorbed and the roughly purified water is sent to the No1 magnetic field section through the No1 partition.
When the monazite ceramic is deployed, water molecules are excited to become H3O ⁺ , H ⁺ , and OH ⁻ to be radical, and then sent to the No1 magnetic field through the No1 partition.
When the above ceramic balls are mixed and deployed in an arbitrary ratio, it is understood that there are both effects.
(B) In the No. 1 magnetic field part, magnetic energy is efficiently given to water by a strong permanent magnet that has been rust-proofed in water and an appropriate magnet interval calculated by electromagnetic theory. ,
In the case of liquid fuel, rust prevention treatment is not necessary (c), and the inner cylinder is made of infrared radiation raw material, and infrared radiation is radiated efficiently to the entire infrared wavelength range by the infrared radiation ceramic (however, water Absorption wavelength is 3, 6, 10-12 μm),
(D) The effect of the No1 magnetic field part is that water is efficiently treated by the synergistic effect of (i) and (c) above, and chlorine, nitrogen nitrate, trihalomethane, etc. are decomposed and consumed, It is sent to No2 magnetic field part via
(E) In the No. 2 magnetic field part, the same magnetization action as in (a) above occurs.
(F) In the inner cylinder, infrared, (−) ions, weak current discharge and radiation action are performed in water by tourmaline-containing ceramic.
(G), (e), (f) synergistic action, the same action as the above (d) is performed, water is purified, radicalized, sent to the discharge section through the No3 partition,
(H) In the discharge section, the purified water molecule group is radicalized and the mineral ceramic balls give minerals such as calcium (umami, mellowness) and are sterilized. Supplied as drinking water and other water.

The second aspect of the present invention is a “horizontal type” “fluid purification activation device”, which is mainly intended for liquid fuel.
(A) In the inhalation section, the injected liquid fuel is excited by the radiation generated by the monazite while passing through the gap between the deployed monazite ceramic balls, and the liquid fuel molecules are excited and the clusters are radicalized. The liquid fuel that is radicalized and has low viscosity and good fluidity is sent to the No1 magnetic field section through the No1 partition.
(B) In the No. 1 magnetic field part, magnetic energy is efficiently given to the liquid fuel by a strong permanent magnet pierced in the liquid and an appropriate magnet interval calculated by electromagnetic theory.
(C) The inner cylinder pierced through the No1 magnetic field part is a ceramic made of an infrared radiation material, and the liquid fuel is efficiently absorbed and excited by the infrared radiation radiated from the ceramic.
(D) The operational effect in the No1 magnetic field part is that the liquid fuel makes the molecule radical and less viscous due to the synergistic effect of the above (a) and (c), and passes through the No2 partition, and the No2 magnetic field part. Sent to the
(E) In the No. 2 magnetic field part, when magnetic energy is given according to the same theory as in the No. 1 magnetic field part, it receives (-) ions, weak current discharge, and infrared radiation emitted by the tourmaline ceramics pierced on the outer periphery of the magnetic field part. The cluster becomes more radical and active, and sent to the discharge part.
(F) The liquid fuel sent to the discharge unit is excited again by the monazite ceramic arranged there, in the same action as (a), and is increasingly activated and supplied.

  The permanent magnet used (adopted) in the first invention is a 150 mT (1500 G) strong permanent magnet coated and encapsulated with a vinyl chloride sheet on the first layer and then encapsulated with a high-pressure polyethylene resin on the second layer. With this new enveloping method, the embedding temperature is 50-60 ° C. and there is no problem with the Curie temperature. By this enveloping, conventionally, the magnet is in direct contact with water or other liquids. It is a novel invention with an inventive step that made possible what was not possible.

Synthetic resins are broadly divided into thermosetting and thermoplastic. Thermosetting synthetic resins are about 7 types including phenolic resin, and thermoplastic synthetic resins are 12 types of synthetic resin including vinyl chloride. There are known resins, among which water resistance, acid resistance, alkali resistance and mechanical strength are strong, and the same fusing temperature is used, and vinyl chloride and high pressure polyethylene are adopted.
When covering a permanent magnet, a vinyl chloride sheet is used for the first layer, and a high-pressure polyethylene sheet is used for the second layer.
(A) Make a bag in accordance with the shape of the permanent magnet, seal on three sides, and make a bag of about 1.5 times the length of the permanent magnet in an open type. The same applies to high-pressure polyethylene sheets.
(A) Put a permanent magnet into the bag, deaerate, and crimp and wrap the bag at the end of the bag inlet / outlet at 50 ° C (in the case of the first layer vinyl chloride sheet)
(C) The high-pressure polyethylene sheet that is coated and wrapped in the second layer is also coated and pressure-bonded in the same manner as in (a) above.
(D) The excess in the longitudinal direction of the bag is folded along the magnet and bonded with cemedine.

  In the case of the first invention, it is a “vertical type” “fluid purification activation device” mainly for water. To operate this, (a) the device is installed in the vertical direction, B) Connect the suction port of this device to a water tap, (c) When the water tap is fully opened, the flow rate will be about 2m / s. (D) The inhaled water is deployed in the suction part. The adsorbed ceramic or monazite ceramic adsorbs impurities, or receives radiation of various types of radiation emitted from monazite ceramic, the molecular cluster becomes radical, passes through the No1 partition, and enters the No1 magnetic field part. (E) The inner cylinder of the No. 1 magnetic field part is provided with infrared radiation ceramics, and the water that received the strong magnetic field and infrared radiation is radicalized into clusters, and (f) through the No. 2 partition. , No2 magnetic field part Entering and receiving the energy of (−) ions, infrared rays, weak current discharge and magnetic field radiated by the tourmaline-containing ceramic that is transparently provided in the inner periphery of the No. 2 magnetic field part, the radicalized water becomes more radical. It becomes active, and (k) enters the discharge part through the No3 partition. The discharge part has already been radicalized in the No1 and No2 magnetic fields, and further, given the energy, chlorine and nitrogen nitrate. Water that has lost its "tasteless water" and "mellow water" by decomposing and consuming phosphorus, trihalomethane, etc. is obtained by mineral ceramics, and minerals such as calcium are obtained and sterilized by shellfish ceramics. “Taste water” is supplied from the discharge port.

  The second invention is a “horizontal type” “fluid purification activation device” mainly for the purpose of radicalizing the molecules of liquid fuel, but is functionally almost the same as the first invention. The ceramic balls deployed in the discharge section are changed, and the positions of the suction port and discharge port are changed. In terms of form, the “vertical type” is just changed to the “horizontal type”. In order to operate this “fluid purification activation device”, (a) leave it as horizontal as possible, (b) connect the suction port to the liquid fuel filler port, and (c) flow rate 2 m / Pressurize the oil supply port so as to be in the S position and lubricate from the suction port of this device. (D) The injected liquid fuel passes through the gap between the monazite ceramic balls arranged in the suction part, and by radiation, Liquid molecules are excited, clusters become radical, and (o After entering the No1 magnetic field section through the No1 partition, the liquid molecules that have been made radical by receiving the infrared radiation radiated from the infrared radiation ceramics pierced through the inner cylinder and the energy of the strong magnetic field are further radicalized. The fluidity is improved, and (f), passed through the No2 partition, sent to the No2 magnetic field part, where it was released by the tourmaline ceramics permeated through the inner cylinder (-) ions, infrared rays, weak current The liquid molecules that have been radicalized due to the radiation action such as radiation, discharge, and strong magnetic field are further miniaturized, (G), sent to the discharge section through the No3 partition, and deployed to the discharge section. The liquid molecules that have undergone the same action as (d) while passing through the gap between the monazite ceramic balls break the intermolecular recombination, and are further radicalized and supplied to the outside of the apparatus from the discharge section.

  Hereinafter, examples of the present invention will be described in detail.

  When performing the water flow test of the “vertical type” “fluid purification activation device” according to the first aspect of the invention, the casing (outer cylinder) 1 of the device is separated into the casing 2, the casing 3, and the casing 4 (casing 1). Is formed by combining the casings 2, 3 and 4 together, and the casing is made of 18-8 stainless steel).

  Zeolite ceramic balls and diatomaceous earth ceramic balls are mixed at a ratio of 1: 1 to the suction part 5 in the casing 4 and the adsorbing ceramic balls 6 placed in a mesh bag are arranged to fit the casings 3 and 4 together. The shell ceramic ball and calcium ceramic ball are mixed in the discharge ratio 7 in the casing 2 at a mixing ratio of 1: 1, and the mineral ceramic ball 8 placed in the mesh bag is arranged, and then the casing 2 and 3 are fitted. Thus, the casings 2, 3, 4 are fitted to form the casing 1.

  When the suction port 9 is connected to a public water pipe and the water valve is fully opened, the tap water fills the suction part 5 at a flow rate of approximately 2 m / s and passes through the gap between the adsorbing ceramic balls 6, and the No. 1 bed 10, the tap water is adsorbed to the bacteria and microparticles by the adsorption ceramic balls 6, and the purified tap water is sent to the No 1 magnetic field unit 11.

The inner cylinder 12 pierced through the magnetic field part of No. 1 is made of a ceramic body made of an infrared radiation raw material, and the outer peripheral part is filled with two or three layers of foamed vinyl chloride sheets of the buffer material 13. The inner cylinder is protected, and 1500 gauss (150mT) strong permanent magnets 14 to 17 are pierced inside. This permanent magnet is composed of two layers of barium ferrite magnets with a vinyl chloride sheet as the first layer. The eyes are coated and encapsulated with high-pressure polyethylene resin and have the effect of drastically reducing the oxidizing power (in short, it does not rust), which is a drawback of metal magnets. 11 is irradiated with a strong magnetic field of the permanent magnets 14 to 17 in the infrared radiation of the infrared radiation ceramic 12, is excited and activated, and is ionized to H ₃ O ⁺ , OH ⁻ , H ^+, etc. Nitrogen nitrate, chlorine, trihalomethane, etc. are digested and become more radical, and are sent to 19 No. 2 magnetic field sections through 18 No. 2 beds.

  The No. 2 magnetic field part 19 is provided with an inner cylinder 20 made of tourmaline-containing ceramic, and (−) ions, infrared rays, weak current discharge and radiation are emitted from the inner cylinder by the permanent magnets 14 to 17. The water magnetized in the strong magnetic field is increasingly excited and activated to become radical. In this process, the remaining amount of nitrogen nitrate, chlorine, trihalomethane, etc. are completely digested and the 21 No3 partition. After passing through the mineral ceramic ball 8, the water that entered the discharge unit 7 obtained ions such as calcium, magnesium, sodium, etc. from the ceramic ball, and has a “mellow” and “taste” water. The shell ceramic is obtained by collecting and firing the shell currently being produced in seawater, and is supplied with calcium, silicon, sodium, magnesium, and the like. It is included um like, it has been demonstrated that some 且殺 virulence.

  When performing the lubrication to discharge (supply) test of the “horizontal type” “fluid purification activation device” according to the second aspect of the invention, the casing (outer cylinder) 1 of the device is separated into casing 2, 3, and 4 (The casing 1 is formed by combining the casings 2, 3, and 4 together, and the casing is refined with 18-8 stainless steel).

After placing the monazite ceramic ball in a mesh bag to the suction part 5 in the casing 4 and fitting the casing 4 and the casing 3,
After putting the monazite ceramic balls in the mesh bag into the discharge part in the casing 2, the same 3 as the casing 2 is fitted, so that the casings 2, 3, 4 are fitted into the casing 1.

  When the liquid fuel refueling cylinder is connected to the suction port 9 of the “fluid purification activation device” 100 and fully opened, the suction part 5 is filled at a flow velocity of 2 m / s or more, passes through the gap of the monazite ceramic ball 6, and is No1 At this time, the liquid fuel is sent to the No. 1 magnetic field part 11 through 10 and the liquid fuel molecules are broken by monazite ceramic or the cluster is in a radical state.

  The inner cylinder 12 pierced in the No. 1 magnetic field part 11 is composed of a ceramic body made of an infrared radiation raw material, and the outer peripheral part is filled with two or three layers of foamed pinned chloride sheets of the buffer material 13. The inner cylinder 12 is protected, and 1500 gauss (150 mT) strong permanent magnets 14 to 17 are transparently provided on the inner side thereof. The permanent magnet is a barium ferrite magnet and has a suction portion. The liquid fuel which became radical in 5 is subjected to a strong magnetic field of the permanent magnets 14 to 17 in the infrared radiation of the infrared radiation ceramic 12 in the No. 1 magnetic field unit 11, magnetized, excited, activated, ionized, The viscosity is lowered and the fluidity is improved, and it is sent to 19 No. 2 magnetic field section through 18 No. 2 partition.

  A No. 2 magnetic field portion 19 is provided with a tourmaline-containing ceramic inner cylinder 20 through which (−) ions and infrared rays are emitted from the inner cylinder, and a weak current is discharged. The liquid fuel molecules magnetized in the strong magnetic field by the magnets 14 to 17 are excited and activated more and more, lose their viscosity, and the fluidity becomes very good, and enters the discharge unit 7 through the No. 3 partition.

  The liquid fuel whose viscosity has been lowered and fluidity has been improved is more radicalized by the influence of the monazite ceramic 23 provided in the discharge section 7, and is discharged from the discharge port and supplied.

  The covering and wrapping treatment for the rust-proofing treatment of the permanent magnet is performed by forming a bag made of a vinyl chloride sheet having a thickness of 0.2 to 0.3 mm and a high-pressure polyethylene sheet in accordance with the shape of the permanent magnet. The thickness and width are approximately the same size as the magnet, and the length direction is 1.5 times the length of the magnet.

  After the permanent magnet is pushed into the bag and deaerated, the lengthwise end of the bag is wrapped with a crimping machine heated to 50 ° C. and covered with a first layer of vinyl chloride sheet. Is completed.

  The excess bag portion in the longitudinal direction is bent along the magnet, and each end portion is joined with an adhesive, and in this case, cemedine resistant to water, alcohol, and oil is preferable.

  1 is a longitudinal sectional view of a vertical fluid purification activation device showing an embodiment of the present invention.   A-a 'sectional view same as above   B-b 'sectional view same as above   Sectional view of the horizontal type fluid purification activation device of the present invention   Sectional drawing showing the permanent magnet coating encapsulation of the present invention

Explanation of symbols

100, fluid purification activation device 1, casing (outer cylinder)
2, casing 3, casing 4, casing 5, suction part 6, suction ceramic ball 7, discharge part 8, mineral ceramic ball 9, suction port 10, No1 partition 11, No1 magnetic field part 12, infrared radiation ceramic inner cylinder 13, Buffer material 14, permanent magnet 15, permanent magnet 16, permanent magnet 17, permanent magnet 18, No2 partition 19, No2 magnetic field section 20, tourmaline-containing ceramic inner cylinder 21, No3 partition 22, discharge port 23, monazite ceramic ball 24, permanent magnet 25, vinyl chloride sheet 26, high pressure polyethylene sheet

Claims (3)

  Permanent magnet rust-proofing method in which the surface of the permanent magnet is covered and wrapped with synthetic resin and the ends are bonded.   Adsorbed ceramic balls or radioactive ceramic balls are arranged in the suction part, and mineral ceramic balls are arranged in the discharge part, and are permanently in the fluid (liquid) that passes through the inner cylinders of the infrared radiation ceramic inner cylinder and the tourmaline containing ceramic inner cylinder. A fluid purification activation device comprising a magnet.   It is characterized in that a radioactive ceramic ball is provided in the suction part and the discharge part, and a permanent magnet is provided in a fluid (liquid) passing through each inner cylinder of the infrared radiation ceramic inner cylinder and the tourmaline-containing ceramic inner cylinder. Fluid purifying active device.

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