JP2017148711A - Purifier of water piping installation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a purifier of water piping installation which exerts significant effect in preventing corrosion of a piping system or various types of installations, and preventing adhesion of scales (including calcium scales).SOLUTION: A purifier of a water piping installation of the present invention comprises: a water activating device 111 including a cover 10 disposed on an outer periphery of a piping 1 in a water piping installation, a black body radiation sinter 21, an electromagnetic wave convergence body 22 that consists of a laminated structure of magnets 23 which converge electromagnetic wave emitted from the black body radiation sinter 21 to a fixed wavelength, and a fluid activator 20 which is constituted by forming an electromagnetic wave passing hole penetrating the magnets 23 toward the piping 1; and a water oxidizing device 121 including an alloy plate group which consists of first to third alloy plates 51 to 53 each of which consists of a plurality of types of alloys.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a purification apparatus for water piping equipment, and more particularly, to rusting of piping systems and various equipments by applying to various water piping equipments such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment for air conditioning equipment, etc. The present invention relates to a purification device for water piping equipment that is effective in preventing sticking and preventing scale (including calcium scale) adhesion.

  In general, in various water piping equipment such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment for air conditioning equipment, etc., rust prevention of water piping equipment and prevention of calcium scale adhesion to the inner wall of water piping equipment It is extremely important to purify the water.

  From this point of view, the applicant of the present application has already proposed and obtained a patent for the fluid activation device described in Patent Document 1 in connection with the prevention of rusting of water piping equipment.

  Regarding the prevention of calcium scale adhesion, the circulating water sterilizer described in Patent Document 2 is proposed and patented.

In the past, there was no drastic measure against calcium scale (CaCO ₃ ), and it was common to deal with the calcium scale problem by acid cleaning the calcium scale adhering to the boiler, heat exchanger and piping. .

  However, performing acid cleaning regularly (once a year, etc.) also periodically shuts down the line or the entire factory, so the total cost is immeasurable and a huge burden is imposed. Necessary.

  The circulating water sterilizer described in Patent Document 2, which is a patent relating to the applicant of the present application, solves the conventional problem of preventing adhesion of calcium scale.

Japanese Patent No. 3952477 Japanese Patent No. 4134196

  The present invention is applied to various water piping equipment such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment for air conditioning equipment, etc. based on the technologies of the above-mentioned conventional Patent Documents 1 and 2. It is intended to provide a purification device for water piping equipment that has a great effect in preventing rusting and adhesion of scale (including calcium scale).

  A purification apparatus for water piping equipment according to the present invention includes a cover disposed on the outer periphery of a pipe in the water piping equipment, and is held by the cover and sinters a plurality of types of metal oxide powders at a high temperature. A black body radiation sintered body, and an electromagnetic wave converging body for converging the electromagnetic wave radiated from the black body radiation sintered body to a predetermined wavelength. Water comprising an assembly in which S poles are alternately arranged and stacked, and a fluid activator configured by forming an electromagnetic wave passage hole penetrating these stacked magnets toward the pipe. An activation device, a cylindrical main body connected to a downstream pipe from the water activation device, and a set of first, second, and third alloy plates in order from the water inflow port built in the main body. A plurality of the first alloy plates, The alloy is made of an alloy containing at least copper and tin, the second alloy plate is made of an alloy containing at least silicon and titanium, and the third alloy plate is made of an alloy containing at least iron, molybdenum and manganese. The main feature is that it has a plate group and a hydroxylation device having the plate group.

  According to the invention described in claim 1, by applying to various water piping equipment such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment of air conditioning equipment, etc., prevention of rusting of the piping system and various equipment, And a purification device for water piping equipment that has a great effect in preventing adhesion of scale (including calcium scale) and removing metal ions, and exerting great effects in maintaining the strength of various water piping equipment and simplifying maintenance. Can be realized and provided.

  According to the invention described in claim 2, since the same effect as that of the invention described in claim 1 is obtained and the water activation device is configured to be detachable from the outer periphery of the pipe, the water activation device is attached and replaced. At this time, it is not necessary to cut the piping, and it is possible to realize and provide a purification device for water piping equipment that is simple to maintain and manage.

  According to invention of Claim 3, based on the structure of the said black body radiation sintered compact of the said water activation apparatus which mixed and formed the total 12 types of metal oxides, Claim 1 or 2 It is possible to realize and provide a purification apparatus for water piping equipment that exhibits the effects of the invention.

  According to the invention of claim 4, each magnet of the water activation device has the effect of the invention of any one of claims 1 to 3 on the basis of a configuration in which the magnets are integrally coupled with a non-magnetic coating. A purification device for water piping equipment can be realized and provided.

According to invention of Claim 5, the effect of the invention of any one of Claims 1 thru | or 4 is based on the structure of the said electromagnetic wave passage hole of the water activation apparatus made into the fine hole of diameter 1mm or less. It is possible to realize and provide a purifying device for water piping equipment.

  According to the sixth aspect of the present invention, the first, second and third alloy plates of the hydroxylation device are respectively disposed in the main body, and the size of these alloy plates is determined by the inner diameter cut of the main body. Realizing and providing a purification device for a water piping facility that exhibits the effect of the invention according to any one of claims 1 to 5, based on a configuration having a surface area of ¼ or more and 2/3 or less of the area. it can.

  According to the seventh aspect of the present invention, as a configuration provided with a filter that captures metal ions in the subsequent stage of the hydroxylation device, the effects of the first aspect of the present invention can be achieved, and Manganese ions and iron ions can also be completely captured, and a water piping facility purification apparatus that is excellent in purifying water flowing to a water facility disposed in the subsequent stage can be realized and provided.

FIG. 1 is a piping system diagram showing the overall configuration of a purification apparatus for water piping equipment according to an embodiment of the present invention. FIG. 2 is a schematic sectional view taken along line AA of FIG. FIG. 3 is a front view of the electromagnetic wave converging body in the water activation device in the purification apparatus for water piping equipment according to this embodiment. FIG. 4 is a plan view of the electromagnetic wave converging body in the water activation device in the purification apparatus for water piping equipment according to this embodiment. FIG. 5 is a schematic plan view showing a modification of the water activation device in the purification apparatus for water piping equipment according to this embodiment. 6 is a cross-sectional view taken along line BB in FIG. FIG. 7 is a front view of an electromagnetic wave converging body in a water activation device of a modification. FIG. 8 is a plan view of an electromagnetic wave converging body in a water activation device of a modification. FIG. 9 is a schematic plan view of a hydroxylation device in the purification apparatus for water piping equipment according to this embodiment. FIG. 10 shows the alloy plate of the hydroxylation apparatus in the purification apparatus for water piping equipment according to this example, (a) is a cross-sectional view taken along the line CC of FIG. 9, and (b) is a cross-sectional view taken along the line DD of FIG. FIG. 9C is a cross-sectional view taken along line EE in FIG. FIG. 11 is a schematic perspective view of a test apparatus provided with a hydroxylation device in the purification apparatus for water piping equipment according to this embodiment. Mu FIG. 12: is a figure which shows the bactericidal effect regarding Legionella bacteria about the purification apparatus of the water piping installation which concerns on a present Example. FIG. 13: is a figure which shows the removal effect of the metal ion about the purification apparatus and filter of the water piping installation which concerns on a present Example.

  The present invention is applied to various water piping equipment such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment for air conditioning equipment, etc., and prevents rusting of the piping system and various equipment, and adheres to scale (including calcium scale). For the purpose of realizing and providing a purification device for water piping equipment that has a great effect on prevention, a pair of covers disposed on the outer periphery of the piping in the water piping equipment, and a resin integrally in each cover A black body radiant sintering in which a plurality of fixed fluid activators and a pair of assemblies composed of a plurality of fluid activators are fixed, and a plurality of types of metal oxide powders are sintered at a high temperature. Body and an electromagnetic wave converging body for converging the electromagnetic wave radiated from the black body radiation sintered body to a certain wavelength, and the two covers are arranged on the outer periphery of the pipe and are formed on both sides of the cover. Secure each fixed part with a fastening tool. The electromagnetic wave converging body is formed by laminating a plurality of magnets with N poles and S poles alternately arranged, and forming an electromagnetic wave passage hole penetrating these laminated magnets toward the pipe. From the first, second, and third alloy plates sequentially from the water activation device that is configured, the cylindrical main body that is connected to the pipe downstream from the water activation device, and the water inlet that is built into the main body. The first alloy plate is made of five kinds of alloys made of copper, tin, nickel, zinc, and iron, and the second alloy plate is made of at least silicon, titanium, nickel, zinc, It consists of six types of alloys consisting of copper and silver, and the third alloy plate comprises an alloy plate group consisting of eight types of alloys consisting of iron, molybdenum, manganese, nickel, zinc, copper, tin, and aluminum. With hydroxylation equipment Realized by a configuration having a.

Hereinafter, the purification apparatus of the water piping installation based on the Example of this invention is demonstrated in detail with reference to drawings.
The water piping equipment purification apparatus 101 according to the present embodiment is applied to various water piping equipment such as hot water supply equipment, hot spring water piping equipment, cooling water piping equipment for air conditioning equipment.

  As shown in FIG. 1, a purification apparatus 101 for a water pipe facility according to this embodiment includes a water activation device 111 disposed on the outer periphery of the pipe 1 of various water piping facilities, and, for example, the water activation device 111. It has a hydroxylation device 121 and a filter 131 connected to the downstream piping 1.

  As shown in FIGS. 1 to 4, the water activation device 111 includes a pair of two assemblies 2 </ b> A and 2 </ b> B disposed on the outer periphery of the pipe 1.

  Since the assemblies 2A and 2B have the same structure, the same members or portions will be described with the same numbers.

  Each of the assemblies 2A and 2B has a plurality of fluid activators 20 (a total of six on each side, six in this embodiment) fixed in a stainless steel cover 10.

  The cover 10 includes an arc-shaped outer wall portion 11, a side wall portion 12 extending from the both side ends of the outer wall portion 11 toward the pipe 1, and a fixing portion 13 projecting from the side wall portion 12 to the outside of the pipe 1 at a right angle. And is formed from.

  The fluid active body 20 is integrally fixed to the cover 10 with an epoxy resin 30.

  The assemblies 2A and 2B having such a configuration are disposed on the outer periphery of the pipe 1, and the bolts 31 and 32 as coupling tools are passed through the fixing portion 13 and tightened with the nuts 33 and 34, thereby assembling the assemblies 2A and 2B. Is detachably attached around the pipe 1.

  The fluid activator 20 includes a black body radiation sintered body 21 and an electromagnetic wave converging body 22 that converges the electromagnetic wave generated from the black body radiation sintered body 21 to a specific wavelength.

  The black body radiation sintered body 21 is formed by powderizing a plurality of types of metal oxides and sintering at 1000 to 1400 ° C.

  As the raw material of the metal oxide, cobalt (Cobalt), nickel (Nickel), manganese (Manganese), copper (Copper), iron (Iron), boron (Aronium), aluminum (Aluminium) which are the following seven kinds of raw materials are used. ) As the main component.

  These include the following neodymium, praseodymium, yttrium, lanthanum, cerium, samarium, europium, olidium, terium, gallium, ), Dysprosium, holmium, erbium, thulium, ytterbium, lutetium, and chromium (Chromium). Mixing, that is, a total of 12 kinds of metal oxides are mixed to form the black body radiation sintered body 21. .

  As shown in FIG. 2, the electromagnetic wave converging body 22 uses divided magnets 23a and 23b obtained by dividing a ring-shaped magnet 23 into two.

  The divided magnets 23a and 23b are formed by laminating in multiple layers (eight layers in the embodiment).

  The magnets 23 have N poles and S poles alternately arranged, and each magnet 23 is integrally coupled with a nonmagnetic coating 24.

  Further, a fine electromagnetic wave passage hole 25 having a diameter of 1 mm or less is formed in the center of the electromagnetic wave converging body 22 so that the opening end thereof faces the pipe 1.

  Next, the function and effect of the water activation device 111 will be described.

  The black body radiation sintered body 21 of the water activation device 111 radiates electromagnetic waves having a wide range of wavelengths.

  Due to the interaction between the phases, the electromagnetic wave of this wide wavelength attenuates the electromagnetic wave and at the same time loses its material permeability.

  Therefore, water can be activated by bringing the black body radiation sintered body 21 into direct contact with water, but the electromagnetic wave of the black body radiation sintered body 21 does not pass through the pipe wall of the pipe 1. The water flowing in 1 cannot be activated.

  In the present embodiment, the electromagnetic wave radiated from the black body radiation sintered body 21 passes through the electromagnetic wave passage hole 25 of the magnet 23 in which the N pole and the S pole are alternately arranged, so that the phase of the wavelength is aligned. A specific laser-like microwave can be obtained.

  This laser-like microwave can pass through the pipe 1 and activate the water flowing in the pipe 1.

  To elaborate further, hydrated electrons can be obtained by subdividing the aggregates of water molecules of water by magnetic resonance motion using laser-like microwaves, placing hydrated electrons outside, and applying kinetic energy from a pump or the like to this. Is peeled and discharged.

Thereby, the red rust (FeO (OH)) resulting from the iron in the water flowing in the pipe 1 or the iron deposited from the pipe 1 is changed to black rust (Fe ₃ O ₄ ) which is an unmoving body.
Have iron

  That is, red rust is changed to black rust which is hard and has a small deposit (about 1/10 of red rust) by separating water molecules and oxygen by the reducing action of hydrated electrons.

  As a result, it is possible to prevent an inconvenient situation such as red rust depositing and closing on a joint portion of the piping system such as the piping 1.

  By activating the water in this way, the red rust on the inner wall of the pipe 1 becomes black rust, the blockage rate of the piping system including the pipe 1 is improved, and deterioration of the inner wall of the pipe 1 and the like due to red rust corrosion is prevented. Moreover, strength deterioration of the piping 1 etc. can be prevented.

  The fluid active body 20 is an electromagnetic wave using a black body radiation sintered body 21 obtained by sintering a metal oxide and a magnet 23 that converges the electromagnetic wave generated from the black body radiation sintered body 21 to a specific wavelength. Since it consists of the simple structure which consists of the converging body 22, the reduction of manufacturing cost can be aimed at as the said water activation apparatus 111 whole.

  Furthermore, since the water activation device 111 in the purification device 101 of the water pipe facility according to the present embodiment employs a configuration in which the assemblies 2A and 2B are detachably attached around the pipe 1, Even at the time of replacement, there is no need to cut the piping 1 or stop the piping system, and there is an advantage that it is extremely simple in terms of installation and maintenance management because it does not require power supply or the like.

  Next, a water activation device 111A, which is a modification of the water activation device 111 in the present embodiment, will be described with reference to FIGS.

  In the water activation device 111A shown in FIGS. 5 to 8, the same or corresponding members as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  The modified water activation device 111A has substantially the same configuration as the water activation device 111 of the first embodiment. However, the fluid activation body 20 includes a black body radiation sintered body 21 and the black body radiation sintering. A laminated structure with an electromagnetic wave converging body 22 for converging the electromagnetic wave generated from the body 21 to a specific wavelength.

  The electromagnetic wave converging body 22 is formed by laminating flat plate magnets 23 in multiple layers (eight layers in the second embodiment).

  The magnets 23 have N poles and S poles alternately arranged, and each magnet 23 is integrally coupled with a nonmagnetic coating 24.

  The electromagnetic wave converging body 22 is formed with a large number of fine electromagnetic wave passage holes 26 having a diameter of 1 mm or less.

  Also in the case of the water activation device 111A of the modified example, the electromagnetic wave radiated from the blackbody radiation sintered body 21 is the electromagnetic wave passage hole of the magnet 23 in which the N pole and the S pole are alternately arranged as in the above embodiment. By passing the filter 26, the phases of the wavelengths are aligned, and a specific laser-like microwave is obtained.

  This laser-like microwave is transmitted through the pipe 1 and activates the water flowing in the pipe 1, and as in the case of the water activation device 111 of the above-described embodiment, the pipe 1 itself or a joint portion of the pipe system including the pipe 1 It is possible to prevent an inconvenient situation such as being blocked by red rust.

  In the above-described embodiments and modifications, the case where eight magnets 23 are stacked has been described. However, the number of magnets 23 is not limited to these examples, and is not particularly limited to six or ten. Absent.

  Next, the hydroxylation apparatus 121 in the present embodiment will be described with reference to FIGS. 1, 9, and 10.

  As shown in FIG. 9, the hydroxylation device 121 in this embodiment includes a cylindrical main body 41 made of a material that hardly corrodes, such as stainless steel, and uses a joint 42 for the water inlet of the main body 41. The water activation device 111 is connected to the downstream piping 1 and the water outlet side of the main body 41 is connected to the piping 1 </ b> A connected to the filter 131 that supplements metal ions using a joint 43.

  A water facility 141 including a heat source device such as a boiler is connected to the subsequent stage of the filter 131.

  In the main body 41, as shown in FIG. 9, three types of the first alloy plate 51, the second alloy plate 52, and the third alloy plate 53 are set as one set from the water inlet to the outlet. The first, second, and third alloy plates 51, 52, and 53 are arranged in multiple sets (three sets in this embodiment) to form an alloy plate group.

  Each of the first, second, and third alloy plates 51, 52, and 53 has a substantially semicircular shape as shown in FIG.

The first alloy plate 51 is made of an alloy containing at least copper and tin.
In the present embodiment, five metal alloy plates were added in which nickel, zinc, and iron were added in addition to copper and tin. By having copper and tin in this way, it functions as an alloy plate that takes away bacteria such as Legionella bacteria and calcium components that flow in water.

The second alloy plate 52 is made of an alloy containing at least silicon and titanium.
In this example, an alloy plate containing six kinds of metals including nickel, zinc, copper and silver in addition to silicon and titanium was used. Thus, by having silicon and titanium, it functions as an alloy plate that electrically adsorbs, for example, Legionella bacteria.

The third alloy plate 53 is made of an alloy containing at least iron, molybdenum, and manganese.
In this example, an alloy plate containing eight kinds of metals including nickel, zinc, copper, tin, and aluminum in addition to iron, molybdenum, and manganese was used. By having iron, molybdenum, and manganese in this way, it functions as an alloy plate that gives a charge to Legionella, for example, and charges it.

  Due to the functions of the first, second, and third alloy plates 51, 52, and 53, as a whole, it also exhibits an oxidizing action on scale-generating components such as calcium contained in the water flowing in the main body 41.

  The first, second, and third alloy plates 51, 52, and 53 are sized to have a surface area that is not less than ¼ of the inner diameter cross-sectional area of the main body 2 and not more than 2/3. It is configured to ensure the flow. However, from the relation of pressure loss, 1/3 or more and 1/2 or less are preferable.

  Further, the first, second, and third alloy plates 51, 52, and 53 are not arranged in the same manner in the main body 2 so that water can easily come into contact with each other, as shown in FIG. The position is shifted so that the water current bends and flows.

  Although the first, second, and third alloy plates 51, 52, and 53 are formed in a semicircular shape, this shape is not particularly limited, and for example, a shape in which a hole is formed in an alloy disk may be used. .

  In general, cations in water, such as calcium ions, combine with free carbonic acid in water due to changes in the physical environment such as pH and temperature, gradually form crystals of calcium carbonate, etc., grow into giant crystals, and become a scale. Deposit on the inner wall of the piping system (boiler, heat exchanger, etc.).

  On the other hand, according to the hydroxylation apparatus 121 in the present embodiment, cations such as calcium ions in water forcibly react with free carbonic acid in water to form micron-sized micronized crystals that are dispersed in water. (Nano-suspension) and flows into the piping system (boiler, heat exchanger, etc.) downstream from the hydroxylation device 121 while preventing calcium scale precipitation growth.

  The chemical change of the calcium component in this case can be represented by the following chemical formula.

Ca ⁺⁺ + (OH) ₂ → CaCO ₃

Here, Ca ⁺⁺ is soluble and CaCO ₃ is insoluble.

  Next, the action of the hydroxylation device 121 against Legionella in water will be outlined.

  The Legionella bacteria in water are first deprived of electrons by the first alloy plate 51, then electrically adsorbed by the second alloy plate 52, and subsequently charged by being charged by the third alloy plate 53.

  By repeating the step of contacting the first, second, and third alloy plates 51, 52, and 53, Legionella loses physical strength and eventually dies.

  In this way, the three types of first, second, and third alloy plates 51, 52, and 53 having different performances are combined and distributed while being in contact with a plurality of sets, thereby effectively sterilizing in a shorter time than in the past. It can be performed.

  Moreover, since the 1st, 2nd, 3rd alloy plates 51, 52, and 53 do not melt | dissolve in water or ionize at all, the function of the hydroxylation apparatus 121 is hold | maintained, for example for 20 years or more.

  In addition, when used in a piping system through which domestic water flows, there is no use of chlorinated disinfectants, no impact on the human body and no change in water quality, no running costs, and complete maintenance. The effect that it is unnecessary is obtained.

  Next, the results of the sterilization test of Legionella using the hydroxylation device 121 will be outlined.

  A test was shown to the Japan Food Analysis Center using the test apparatus shown in FIG. The test apparatus is a pipe 61 in which a hydroxylation device 121 is installed.

  The pipe 61 was a galvanized steel pipe having a pipe diameter of 20A, and the extension of the pipe 61 was 1845 mm. The pump 62 used a capacity of 29 liters / minute.

At room temperature of 21 to 23 ° C., 2.8 × 10 ⁶ cells / m ³ of Legionella culture solution is filled into the circulation device from the test solution inlet 63 and continuously operated for 48 hours at a flow rate of 1.5 m / second by the pump 62 (Circulated).

As a result of the test, the result shown in FIG. 12 was obtained. As can be seen from FIG. 12, almost all Legionella bacteria that initially existed at 2.8 million cells / m ³ were killed after 24 hours.

  Next, the action of removing metal ions by the hydroxylation device 121 and the filter 131 will be described.

When water in which metal ions such as iron and manganese are dissolved passes through the hydroxylation device 121, all metal ions are converted into metal oxides.
Then, the filter 131 can filter the water and remove the metal oxide dispersed in the water.

  Thereby, all the metal ions in the water are removed from the water, and the water from which the metal ions have been completely removed can be flowed to the water facility 141.

  That is, it is possible to remove metal oxide by forcibly promoting oxidation of metal ions by the hydroxylation device 121 to crystallize it in water and filtering the solution in the next filter 131 stage.

  In the case of technology that uses conventional chemicals to convert metal ions dissolved in water into metal salts and then removes them with a fitter, the cost of equipment such as construction of reaction ponds, chemical costs, etc. is high. There was a problem on the surface.

  On the other hand, according to the hydroxylation device 121 and the filter 131, the power supply and running cost are not required, and it is only necessary to replace the dirty filter element of the filter 131, thereby greatly reducing the maintenance cost. It becomes possible to do.

FIG. 13 shows the results of a water quality test relating to the removal of metal ions for the hydroxylator 121 and the filter 131.
As a result of sampling the water that passed through the hydroxylation device 121 and conducting a water quality test, both the manganese ion value was less than 0.005 mg / l (liter) and the iron ion value was less than 0.03 mg / l (liter). The value was very low below the measurement limit.

  On the other hand, in the water quality inspection of the water in which the filter element of the filter 131 was washed, the manganese ion value was 0.17 mg / l and the iron ion value was 1.7 mg / l, both of which were very high values.

  The above results indicate that the metal ions dissolved in water by the action of the hydroxylation device 121 are changed to metal oxides and then captured by the filter 131.

  As a result, the removal effect of the metal ion in the water of the hydroxylation device 121 has been demonstrated.

  The present invention covers a wide range of hot water supply facilities such as boilers, hot spring water piping facilities in hot springs, cooling water piping facilities such as cooling towers of air conditioning facilities, and various water piping facilities such as water supply languages through which domestic water flows. Applicable to.

DESCRIPTION OF SYMBOLS 1 Piping 1A Piping 2 Main body 2A Assembly 2B Assembly 10 Cover 11 Outer wall part 12 Side wall part 13 Fixing part 20 Fluid activator 21 Black body radiation sintered body 22 Electromagnetic wave convergence body 23 Magnet 23a Split magnet 23b Split magnet 24 Nonmagnetic body Cover 25 Electromagnetic wave passage hole 26 Electromagnetic wave passage hole 30 Epoxy resin 31 Bolt 32 Bolt 33 Nut 34 Nut 41 Body 42 Joint 43 Joint 51 First alloy plate 52 Second alloy plate 53 Third alloy plate 61 Piping 62 Pump 63 Test solution inlet 101 Water purification equipment 111 Water activation device 111A Water activation device 121 Water activation device 121 Hydroxylation device 131 Filter 141 Water facility

Claims (7)

A cover disposed on the outer periphery of a pipe in a water piping facility, a black body radiation sintered body that is held by the cover and is sintered at a high temperature with a plurality of types of metal oxide powders, and the black body An electromagnetic wave converging body for converging the electromagnetic wave radiated from the radiation sintered body to a certain wavelength, and laminating the electromagnetic wave converging body with a plurality of magnets alternately arranged with N and S poles, A water activation device comprising an assembly integrated with a fluid activator configured by forming an electromagnetic wave passage hole penetrating these laminated magnets toward the pipe; and
A plurality of sets of first, second, and third alloy plates are sequentially arranged from a cylindrical main body connected to a pipe at a later stage than the water activation device and a water inflow port built in the main body. The first alloy plate is made of an alloy containing at least copper and tin, the second alloy plate is made of an alloy containing at least silicon and titanium, and the third alloy plate is made of at least iron, molybdenum, An alloy plate group made of an alloy containing manganese;
A purification apparatus for water piping equipment, comprising: A pair of two assemblies comprising a pair of two covers disposed on the outer periphery of a pipe in a water piping facility, and a plurality of fluid activators integrally fixed with resin in each cover; The fluid active body includes a black body radiation sintered body obtained by sintering a plurality of kinds of metal oxide powders at a high temperature, and converges an electromagnetic wave emitted from the black body radiation sintered body to a certain wavelength. An electromagnetic wave converging body, the two covers are arranged on the outer periphery of the pipe, and the fixing portions formed on both sides of the cover are integrally fixed with a fastening tool, respectively, A water activating device configured by laminating a plurality of magnets with N poles and S poles alternately arranged, and forming an electromagnetic wave passage hole penetrating these laminated magnets toward the pipe;
A plurality of sets of first, second, and third alloy plates are sequentially arranged from a cylindrical main body connected to a pipe at a later stage than the water activation device and a water inflow port built in the main body. The first alloy plate is made of five kinds of alloys made of copper, tin, nickel, zinc and iron, and the second alloy plate is made of at least six kinds made of silicon, titanium, nickel, zinc, copper and silver. And the third alloy plate comprises an alloy plate group comprising eight kinds of alloys consisting of iron, molybdenum, manganese, nickel, zinc, copper, tin, and aluminum,
A purification apparatus for water piping equipment, comprising:   The raw material of the black body radiation sintered body of the water activation device is cobalt (Cobalt), nickel (Nickel), manganese (Manganese), copper (Copper), iron (Iron), the following seven kinds of raw materials: The main components are boron and aluminum, and the following are neodymium, praseodymium, yttrium, lanthanum, cerium, samarium, and samarium. Europium, Gadolinium, Terbium, Dysprosium, Holmium, Erbium m), thulium, ytterbium, lutetium, chromium, and a metal oxide selected from five types, ie, a mixture of a total of 12 metal oxides. The purification apparatus for water piping equipment according to claim 1 or 2, wherein   4. The purification apparatus for water piping equipment according to claim 1, wherein each of the magnets of the water activation device is integrally coupled with a non-magnetic material coating. 5.   The purification apparatus for water piping equipment according to any one of claims 1 to 4, wherein the electromagnetic wave passage hole of the water activation device is formed of a fine hole having a diameter of 1 mm or less.   The first, second, and third alloy plates of the hydroxylation device are respectively shifted in the main body, and the size of these alloy plates is not less than 1/4 of the inner diameter cross-sectional area of the main body. The purification apparatus for water piping equipment according to any one of claims 1 to 5, wherein the surface area is 3 or less.   The purification apparatus for water piping equipment according to any one of claims 1 to 6, further comprising a filter that supplements metal ions at a subsequent stage of the hydroxylation apparatus.

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