CN110862129A

CN110862129A - Small molecular group water preparation method and water processor special for same

Info

Publication number: CN110862129A
Application number: CN201910982510.6A
Authority: CN
Inventors: 梁玉婷; 杨中艺; 梁晓鸣
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-16
Filing date: 2019-10-16
Publication date: 2020-03-06

Abstract

The invention discloses a preparation method of small molecular group water, a water treatment device special for the method and a household kitchen and bathroom water heater with an energy magnetic resonance field water treatment device.

Description

Small molecular group water preparation method and water processor special for same

Technical Field

The invention relates to a preparation method of small molecular group water for life and drinking. The invention also relates to an energy magnetic resonance field water processor specially used for the method. The invention also relates to a household kitchen and bathroom water heater with the energy magnetic resonance field water processor.

Background

The water molecule is H₂O, is a triatomic molecule with a hydrogen/oxygen bond length of 0.0984nm, a distance between two hydrogen atoms of 0.154nm, and an angle of about 104 degrees 58' between the two hydrogen and oxygen bonds, as shown in FIG. 1. The water molecule is a polar molecule, and hydrogen bonds are formed among the water molecules. The strength of hydrogen bonds between water molecules determines the phase structure and physical properties of water.

In an aggregate of water, a certain water molecule will hydrogen bond with up to four other individual water molecules, and thus water is a single H₂O and (H)₂Mixtures of O) n, (H)₂O) n is called the water molecule conformation, as shown in FIG. 3.

Is divided into H₂O polarity connected (H)₂The positive and negative poles of water molecules around O) n also continue to generate independent pairs of hydrogen bonds (H: O-H) or (O: H-O) between water molecules with other water molecules, the phenomenon of cluster connection is called association phenomenon of water molecules and vice versa called dissociation phenomenon, and the association results in generation of [ (H: O-H) or (O: H-O)₂O)n·m]Referred to as the configuration of the water molecular clusters, see fig. 4.

These cluster configurations are dynamic, in particular under temperature conditions, at picoseconds (lps 10 ═ 10)^-12s) constantly splitting and recombining on a time scale, which indicates (H)₂O) n and [ (H)₂O)n·m]The number of n and m values of (a) is mainly influenced by the temperature, see fig. 5. Water molecule conformation (H) of a specific liquid water at the same temperature₂O) n and water cluster configuration [ (H)₂O)n·m]The number of values n and m of (a) is substantially constant, which is shown by the repeatable physical properties of water molecules after temperature-dependent reduction. The ordering of the configuration of each water cluster is unique, since the values of n and m are clearly different in the ordering of the association or dissociation of water molecules.

The natural fresh water resources such as lake water, surface water, underground water and the like in nature are tap water, mineral water, purified water and distilled water which are produced by artificially purifying the water sources, belong to the traditional life and drinking water, and in the structure, the water molecule cluster configuration generally consists of 13-15 water molecules at normal temperature. The water molecule conformation and the water molecule cluster configuration in the structure of the traditional water change along with the temperature change, relatively stable physical and chemical properties are realized under different temperature steps, and the physical and chemical properties are basically unchanged under the same temperature condition, which is disclosed in the invention patent: ZL 200710031117.6.

The small molecular group water for life and drinking is as follows: under the same temperature condition, the traditional living and drinking water is influenced by the synergistic effect force of a specific and artificial physical energy resonance field (external force field), and the conformation (H) of water molecules in the structure of the water₂O) n and water cluster configuration [ (H)₂O)n·m]The value of n and the value of m become relatively small; the energy (e.g., dielectric energy loss) of "water" is relatively large and different physical properties are generated; the impurities (such as calcium and magnesium ions) of the 'water' change in properties to generate different chemical properties, and the new artificial water quality, which is referred to as small molecular group water for short, is disclosed in patent ZL 201110057303.3.

The conventional water has no defects in water structure ordering, but in the aspect of water impurities, natural lake water, surface water and underground water are polluted by artificial compounds due to the popularization of modern industries, and the pollution is more and more serious.

Artificial compounds (chlorides) enter the tap water pipe network along with source water and are difficult to eliminate, so that various causes are induced;

the traditional water containing excessive heavy metal ions and hardness salt ions is drunk for a long time, and the hidden risk of inducing lithiasis exists.

Although only tiny sequence changes occur in the aspect of water structure sequencing, the small molecular group water is the difference of the tiny changes of the physical properties, obvious chemical property changes are caused in the aspect of water impurities, and the application of the small molecular group water in life and drinking brings considerable environmental protection benefits, health benefits and economic benefits.

The application aspect of the domestic water is as follows:

in domestic water, bacteria naturally grow after tap water flows out from a pipe network terminal and contacts with air for a period of time, and conditions for breeding a large amount of microorganisms exist on the surfaces of household purified water filter elements, the surfaces of water outlets of water dispensers, water storage tanks, water playing pools and the like. The small molecular group water has a certain time-effect antibacterial function and is beneficial to health.

In life, artificial compounds such as pesticides and preservatives are easy to remain on the surfaces of edible vegetables and fruits, and the artificial compounds such as decontamination solution and scale remover are used for removing stains in the kitchen ware clearing process. The small molecular group water has a certain time-effect function of degrading the residual artificial compounds, reduces the dosage of chemical agents, and is low-carbon and environment-friendly.

A certain amount of disinfectant is remained in tap water, the skin is easily damaged by residual disinfectants such as free residual chlorine and trichloromethane in the household bathing process, and the skin is easily damaged by the alkalinity of the residual scale remover in the centralized hot water bathing process. The small molecular group water has a certain time-efficient function of heating and volatilizing chloride, prevents skin allergy, stops itching and ensures health.

In areas with high water hardness and in areas with excessive heavy metal ions, the content of dissolved solids in drinking water (tap water and natural water) is high, and excessive absorption by human bodies can cause certain causes, such as kidney stones. The small molecular group water has the functions of dissolving solid matter with a certain settling rate, being easy to remove and the like, and the health is guaranteed.

The application aspect of the pure drinking small molecular group water is as follows:

edible and medicinal plants are separated out more quickly, for example, in the tea boiling process, the beneficial substances of the tea leaves are separated out more quickly and are easier to absorb;

the vessel dirt (thick blood) is not easy to accumulate, has a certain scale inhibition rate, and reduces the risks of chemical substance scale removal and mechanical method scale removal.

Disclosure of Invention

The invention aims to solve the first technical problem of providing a preparation method of small molecular group water for life and drinking.

The invention aims to solve the second technical problem, and provides the energy magnetic resonance field water processor special for the method.

The third technical problem to be solved by the invention is to provide a household kitchen and bathroom water heater with an energy magnetic resonance field water processor.

The small molecular group water prepared by the energy magnetic resonance field water processor for preparing the small molecular group water and the household kitchen and bathroom water heater, the household kitchen and bathroom water boiler and the bottled pure small molecular group aquatic product which are specially used for the method can prepare water with water structures in isomer, have brand-new physical and chemical properties, have high bacteria inhibition rate of harmful microorganisms, high decomposition and volatilization rate of artificial compounds, high coordination and precipitation rate of dissolved solid ions, high permeability for completing the replacement of intracellular fluid and external fluid through body fluid, and high dissolution and discharge rate of cold condensate such as in-vivo calculus.

To solve the first technical problem, the technical solution adopted by the present invention is as follows:

a preparation method of small molecular group water for life and drinking is characterized in that:

for small molecular group water for life, the method comprises the following steps:

under the condition of room temperature and normal pressure, liquid water under pressure flows through an energy magnetic resonance field (water treater) to obtain the water treatment agent;

the obtained small molecular group water for life is used at normal temperature or after being heated (entering a water heater) to the temperature of less than or equal to 80 ℃;

the liquid water under pressure is output from a water plant and has a volume of less than or equal to 4kg/cm²1-4 kg/cm of pressure or secondary direct water supply pump belt²The pressure output is consistent with the tap water of GB 5749 and 2006 sanitary Standard for Drinking Water or the natural water of which the solid index (such as turbidity) is consistent with the index of the tap water.

1. The prepared living small molecular group water has the following characteristics:

a) under the condition of normal temperature: inhibiting bacteria (harmful bacteria such as fungi, mold, Escherichia coli, etc.), and degrading compounds (pesticide and fertilizer).

b) Decomposing chlorides (residual chlorine, trichloromethane and the like) at the temperature of less than or equal to 80 ℃; degrading oil stains; scale inhibition (hardness salt ions).

The method for drinking the small molecular group water (bottled direct drinking water) comprises the following steps:

under the condition of room temperature and normal pressure, circulating the liquid water under pressure for at least 2 times and at most 12 times (one time refers to the process that the liquid water enters from an inlet and exits from an outlet), flowing through an energy magnetic resonance field (water processor), then heating the liquid water (entering heating equipment) to 100-105 ℃, finally cooling the liquid water (entering a condenser) to 8-20 ℃, and then filling bottles and packaging to obtain the product;

the pressurized liquid water is pressurized by a food-grade pressurizing pump at a pressure of 0.5-4 kg/cm²Purified water or distilled water which is output and meets the standards of GB 19298-2014 national food safety standard package drinking water and GB 17323 + 1998 bottled purified water for drinking;

the room temperature and normal pressure refers to the room temperature of 25 +/-5 ℃ under 1 atmospheric pressure.

When the liquid water adopts tap water as source water, the liquid water flows through the energy magnetic resonance field (the time of flowing through the energy magnetic resonance field) within the time of less than or equal to 5 seconds at one time and then flows to the heating source (an electric water heater or a gas water boiler), the flow time from the inlet end of the energy magnetic resonance field to the inlet end of the heating source is less than or equal to 10 seconds, the heating temperature is less than or equal to 100 ℃, and the flow distance from the energy magnetic resonance field to the heating source is less than or equal to 3 meters.

When the liquid water is pure water, mineral water and distilled water as source water, at least 2 times of circulating flow passes through the energy magnetic resonance field to the heating source (electric and gas water boiler, normal pressure or low pressure boiler) to the freezing source (refrigerator, freezer and refrigeration heat exchanger) to the small molecular group water, and the product is packaged, so that the flow time from the inlet end of the energy magnetic resonance field to the inlet end of the heating source is less than or equal to 30 seconds, the heating temperature is 90-105 ℃, the flow distance from the inlet end of the energy magnetic resonance field to the outlet end of the heating source is less than or equal to 30 meters, the flow time from the heating source to the freezing source is less than or equal to 600 seconds, and the flow distance from the heating source to the freezing source is less than or equal to 50 meters.

The prepared direct drinking micro cluster water has the following characteristics:

a) it is more permeable and absorbable to some cells, and has active factors.

b) The calculus composed of heavy metal ions is easy to dissolve, break and drain.

c) The dirt of the blood pipe network system is more easily dispersed and is not easy to form blood dirt and block.

To solve the second technical problem, the technical solution adopted by the present invention is as follows:

the energy magnetic resonance field water processor special for the method is characterized by comprising the following steps: a tubular housing 103, two ports of which are respectively sealed by a water inlet end cover 101 and a water outlet end cover 102 with a hole in the middle, a flow passage plate 106 is respectively arranged in the water inlet end cover 101 and the water outlet end cover 102, a groove-shaped flow passage 109 is arranged on the inner end surface of the flow passage plate 106, the flow passage is bent back and forth and reciprocated left and right, and a convex block 110 is arranged in the middle to enable water flow to be time-sharing combined, one end of the flow passage is positioned at the edge of the inner end surface, the other end is positioned at the center, and the edge end of the flow passage is provided with a through hole 107; between the two flow passage plates are distributed a plurality of sealed permanent magnets 104 and a magnetic plate 105 with a hole 108 in the middle.

The outer end face of the runner plate 106 is provided with a convex ring surrounding the center, the wall of the convex ring is provided with a hole, and the top face of the convex ring is tightly attached to the inner end face of the water inlet end cover 101 or the water outlet end cover 102.

The material of the runner plate 106 is composed of grey iron and the radioactivity content of which is less than 7 x 10⁴Bq/Kg ore powder containing trace nuclear uranium and thorium, and metallic zinc powder containing less than 5% of metallic titanium or oxides thereof.

The weight percentage of each component is as follows:

ash iron 95% -97%, radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium 0.5-2%, and metallic zinc powder containing less than 5% of metallic titanium or its oxide 1-3%.

Said radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium comprises the following components: 10% magnesium, 40% iron, 45% silicon, 3% calcium, 1% aluminum and 1% manganese.

Said high temperature smeltingThe process comprises the following steps: firstly, the radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium, metal zinc powder containing 5% of metal titanium or oxide thereof, then injecting molten pig iron (1400-1800 ℃) into the mixture containing trace nuclide ore powder, metal zinc powder and other materials, and finally casting the mixture through the process of high-temperature combustion-explosion.

The magnetic plate 105 is a sealed permanent magnet assembly, a permanent magnet with the magnetic field intensity of 1000-4000 gausses is adopted, engineering plastics (ABS, PPS and the like) are adopted to manufacture a box type sealing component, and the permanent magnet is arranged in the box type sealing component to form the sealed permanent magnet assembly.

To solve the third technical problem, the technical solution adopted by the present invention is as follows:

the utility model provides a house kitchen guarding water heater with energy magnetic resonance field water treatment ware, characterized by includes: the container 1 is provided with a water inlet pipe 2 and a water outlet pipe 3 which are positioned at the top, the water inlet pipe 2 is provided with a water inlet extension pipe 4 behind the energy magnetic resonance field water processor 8 and extends to the lower part in the container, the container 1 is also internally provided with an electric heating assembly 6, and a circuit of the heating assembly is provided with a mechanical temperature regulator 7.

The container 1 is also provided with a shell 5.

The small molecular group water produced by the preparation method has the beneficial effects that:

1. beneficial effect of small molecular group water for life

The small molecular group water prepared by taking tap water as source water meets the GB 5749-.

The small molecular group water used under the condition of normal temperature (less than or equal to 25 ℃) has the characteristics of bacteriostasis, pesticide residue removal, oil stain removal and the like.

The antibacterial rate of Escherichia coli is 58-99%;

the mixed mould bacteriostasis rate is 29.63% -62.96%;

the removal rate of dichlorvos is 24.1 to 51.1 percent;

the removal rate of trichloromethane is 11%.

Small cluster water used under warm and hot water (26-60 ℃) conditions has the characteristics of removing free residual chlorine, fungi and the like.

Residual chlorine removal rate/relative temperature, 42.3%/32 ℃; 53.8%/40 ℃; 61.5%/50 ℃.

Removal rate/relative temperature of fungi (aspergillus niger), 8.47%/25 ℃; 11.73%/40 ℃; 14.86%/50 ℃.

The small molecular group water used under the conditions of heat and boiling water (60-100 ℃) has the characteristics of degrading heavy metal ions (dissolved solids), removing scales and the like.

A crystal form analysis report of heavy metal ion crystallization;

and (5) detecting and reporting the scale inhibition rate of the hardness salt ions.

2. Beneficial effect of drinking pure micro cluster water

Compared with the traditional water (pure), the small molecular group water (pure) has new physical functional parameters such as high permeability, high dissolving power, low surface tension, low dielectric constant, low dielectric (energy) loss and the like;

the dielectric constant (average same ratio) is reduced by 50 percent;

dielectric (energy) loss (average same ratio) 56%;

the surface tension (same ratio) of the water is reduced by 0.99 percent.

Therefore, pure small molecular group water is drunk in a selective and quantitative way (or following the medical advice), has strong drug guiding property, assists cold congelation (calculus) excretion, and is beneficial to renal function rehabilitation; scale inhibition (blood scale and blood viscosity) is beneficial to blood circulation; the water is easier to be absorbed and penetrated by the cell membrane, which is beneficial to the growth, the abandonment and the conversion of the cells.

Drawings

FIG. 1 shows water molecules (H)₂O) schematic diagram;

FIG. 2 is a schematic representation of the polarity of water molecules;

FIG. 3 shows the water molecule conformation (H)₂O) n is a schematic diagram;

FIG. 4 Water Cluster [ (H)₂O)n·m]Schematic configuration diagram of (a);

FIGS. 5A to 5E show the water molecule conformations (H) at different temperatures₂O) n schematic (n is changed from minimum to maximum in sequence, waterThe form of (1) is changed from steam (fig. 5A) to liquid (fig. 5B to 5D) and ice (fig. 5E)) in sequence;

FIG. 6 is a graph showing the dielectric constant vs. ratio variation (comparison of desalted water and desalted small cluster water);

FIG. 7 is a graph showing dielectric loss vs. variation (comparison of desalted water and desalted small cluster water);

FIG. 8 is a schematic diagram showing the relationship of the aging property of the surface tension of the small molecular group water;

FIG. 9 shows a single crystal type (electron microscope image of calcium and magnesium ions of tap water heated before treatment)

FIG. 10 shows the double crystal form (the electron microscope picture of calcium and magnesium ions after the tap water is heated after being treated)

FIG. 11 is a schematic sectional view of an embodiment of a household kitchen and bathroom water heater with an energy magnetic resonance field water treatment device;

FIG. 12 is a sectional view of the water treatment apparatus with an energy magnetic resonance field;

FIG. 13 is a schematic diagram of a three-dimensional explosion of the water treatment device with an energy magnetic resonance field;

FIG. 14 is a view of the groove surface of the inlet/outlet flow channel plate of the water treatment apparatus;

FIG. 15 is a schematic top view of an embedded magnet partition of a water treatment apparatus;

FIG. 16 is one of the test reports for example (pure small cluster water);

FIG. 17 is one of the examination reports of the example;

FIG. 18 is one of the examination reports of the example;

FIGS. 16 to 18 are reports of measurements of surface tension of untreated purified water and treated purified small cluster water in the same ratio;

FIG. 19A is a second test report of the single crystal form of the example (crystal form of calcium and magnesium ions when tap water is heated before treatment);

FIG. 19B is a second test report of the dual crystal form of the example (crystal form of calcium and magnesium ions after the tap water is heated up);

FIG. 20 is a third of the test report (small cluster water) for the example;

FIG. 21 is a third inspection report of an embodiment;

FIGS. 20 to 21 are the detection reports of the same ratio of residual chlorine content of tap water before treatment and small molecular group water after treatment

FIG. 22 is the fourth report of the test of example (small cluster water); detection report for content of various chlorides in tap water before treatment and small molecular group water after treatment in same ratio

FIG. 23 is the fifth report of the test of example (small cluster water);

FIG. 24 is a fifth report of an example test;

FIGS. 23 to 24 are detection reports of the same ratio of the residual pesticide content in tap water before treatment and in small cluster water after treatment;

FIG. 25 is a sixth report of the test of example (small cluster water);

FIG. 26 is a sixth of the inspection report of the example;

FIGS. 25 to 26 are detection reports of the same ratio of the contents of mold in tap water before treatment and in micro cluster water after treatment;

FIG. 27 is seven of the test report for example (small cluster water); detection report for colibacillus content of microorganisms in tap water before treatment and small molecular group water after treatment in same ratio

Reference numerals in the figures refer to:

1-a container; 2-water inlet pipe; 3-water outlet pipe; 4-water inlet extension pipe; 5-a container housing; 6-an electric heating component; 7-a temperature regulator; 8-energy resonance field water quality processor; 101-a water inlet end cover; 102-a water outlet end cover; 103-round tube; 104-a magnet; 105-an embedded magnet spacer; 106-flow channel plate; 107-water through holes; 108-a middle hole; 109-groove flow channels; 110-bump.

Detailed Description

Fig. 1 to 10 are schematic diagrams showing characteristics of water and the small cluster water of the present invention.

The preparation method of the small molecular group water comprises the following steps:

the liquid water under pressure is output from a water plant and has a volume of less than or equal to 4kg/cm²1-4 kg/cm of pressure or secondary direct water supply pump belt²The pressure output is realized, and the tap water or the natural water with the solid index meeting the tap water index meets the GB 5749 and 2006 sanitary Standard for Drinking Water.

2. The prepared living small molecular group water has the following characteristics:

Referring to fig. 12 to 15, an embodiment of a water treatment apparatus with an energy magnetic resonance field according to the present invention, which is dedicated to the method, includes: a tubular housing 103, two ports of which are respectively sealed by a water inlet end cover 101 and a water outlet end cover 102 with a hole in the middle, a flow passage plate 106 is respectively arranged in the water inlet end cover 101 and the water outlet end cover 102, a groove-shaped flow passage 109 is arranged on the inner end surface of the flow passage plate 106, the flow passage is bent back and forth and reciprocated left and right, and a convex block 110 is arranged in the middle to enable water flow to be time-sharing combined, one end of the flow passage is positioned at the edge of the inner end surface, the other end is positioned at the center, and the edge end of the flow passage is provided with an; between the two flow passage plates are distributed a plurality of sealed permanent magnets 104 and a magnetic plate 105 with a hole 108 in the middle.

The flow passage plate 106 of this embodiment has the same structure and is a circular plate, one surface of the plate is provided with a groove flow passage 109 which is spirally and outwardly meandered from the center, the outermost groove is provided with a water through hole 107 leading to the other surface of the plate, the middle of the other surface is provided with a convex ring, the side wall of the convex ring is provided with a hole, and the top surface of the convex ring is tightly attached to the inner end surface of the water inlet end cover 101 or the water outlet end cover 102; the middle of the partition board 105 is provided with a middle hole 108 which is communicated with the center of the groove of the water inlet and outlet runner board; a plurality of projections 110 are provided in the groove channel 109 along the water flow direction, so that the water flow is time-shared (cyclically divided and combined). The helical outward meander means in general: after turning back to the outside in a spiral way, the circular flow circulates outwards in the opposite direction in a spiral way.

The material of the flow channel plate 106From grey iron, with a radioactive content of less than 7X 10⁴Bq/Kg ore powder containing trace nuclear uranium and thorium, and metallic zinc powder containing less than 5% of metallic titanium or oxides thereof.

The weight percentage of each component is as follows:

The high-temperature smelting process comprises the following steps: firstly, the radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium, metal zinc powder containing 5% of metal titanium or oxide thereof, then injecting molten pig iron (1400-1800 ℃) into the mixture containing trace nuclide ore powder, metal zinc powder and other materials, and finally casting the mixture through the process of high-temperature combustion-explosion.

Referring to fig. 11, the embodiment of the household kitchen and bathroom water heater with an energy magnetic resonance field water processor of the invention comprises: a container (1) is arranged in the container,

the water inlet pipe 2 and the water outlet pipe 3 are arranged at the top, the water inlet pipe 2 is provided with the water inlet extension pipe 4 which is arranged behind the energy magnetic resonance field water treatment device 8 and extends to the lower part in the container, the container 1 is also internally provided with an electric heating assembly 6, and a circuit of the heating assembly is provided with a mechanical temperature regulator 7. The container 1 is also provided with a shell 5.

Practice proves that: the 'external force' of the energy magnetic resonance field has the same dissociation effect on the water molecule conformation as the temperature, and can be determined under the same temperature condition (H)₂O) n and [ (H)₂O)n·m]The dissociation of the n value and the m value in the water is reduced, the water quality of the isomer is derived, and the isomer has brand new physical properties and brand new chemical properties due to the difference of the types of impurities in the water.

When the external force of a certain energy magnetic resonance field acts on dynamic liquid water with a certain volume from a three-dimensional space, the conformation (H) of water molecules can be rapidly changed under the same temperature condition₂O) n and water cluster configuration [ (H)₂O)n·m]And the number of the n value and the m value is relatively reduced, namely, the new 'small molecular group water' with another physical and chemical property is obtained. If the prepared small molecular group water obtains a temperature rise temperature difference of more than or equal to 30 ℃ within less than or equal to 10 seconds, the physical and chemical properties of the small molecular group water are kept to be less than or equal to 48 hours, and the stable change rate is less than or equal to +/-5 percent. If the prepared packaged small molecular group water obtains a temperature rise difference of 90-105 ℃ within less than or equal to 30 seconds, a temperature drop difference of 86-100 ℃ within less than or equal to 600 seconds after temperature rise is obtained, and an inventory temperature of 4-10 ℃ is obtained, the product effective period of the packaged small molecular group water can be kept within less than or equal to 1200 hours, and the stable change rate is less than or equal to +/-5%.

The design of the energy magnetic resonance field is to ensure that the water flow presents the potential of combining and combining when flowing through, so that the passing water flow presents the turbulent flow state of combining and combining collision, fluctuation effect and jet effect; the length extension of the flow channel is realized by a linear, spiral and turning method, the section of the flow channel is square, rectangular, special-shaped or round, and the surface of the flow channel is subjected to food-grade corrosion prevention treatment (such as environment-friendly zinc, nickel and the like); and a plurality of sealed permanent magnet assemblies are distributed along the outer side of the path of the runner.

The water quality processor is provided with a water inlet extension pipe at the back to the bottom of the container 1.

The remaining figures are inspection reports of the examples.

Claims

1. A preparation method of small molecular group water for life and drinking is characterized in that:

under the conditions of room temperature and normal pressure, liquid water under pressure flows through an energy magnetic resonance field to obtain the magnetic resonance energy-storage water-based magnetic resonance energy-;

the obtained small molecular group water for life is used at normal temperature or after being heated to the temperature of less than or equal to 80 ℃;

the liquid water under pressure is output from a water plant and has a volume of less than or equal to 4kg/cm²1-4 kg/cm of pressure or secondary direct water supply pump belt²The pressure is output and meets the tap water or the solid index of the tap water meeting the tap water index of GB 5749 and 2006 sanitary Standard for Drinking Water;

for drinking water with small molecular groups, the method comprises the following steps:

circulating pressurized liquid water through the energy magnetic resonance field at room temperature and normal pressure for at least 2 times and at most 12 times, heating to 100-105 ℃, cooling to 8-20 ℃, and bottling and packaging to obtain the product;

the pressurized liquid water is pressurized by a food-grade pressurizing pump at a pressure of 0.5-4 kg/cm²Purified water or distilled water which is output and meets the standards of GB 19298-2014 national standard package drinking water for food safety and GB 17323-;

2. The method for preparing small molecular group water for life and drinking as claimed in claim 1, wherein the method comprises the following steps: when the liquid water adopts tap water as source water, the liquid water flows through the energy magnetic resonance field once within a time of less than or equal to 5 seconds and then flows to the heating source, the flow time from the inlet end of the energy magnetic resonance field to the inlet end of the heating source is less than or equal to 10 seconds, the heating temperature of less than or equal to 100 ℃ can be obtained, and the flow distance from the energy magnetic resonance field to the heating source is less than or equal to 3 meters;

when the liquid water adopts purified water, mineral water and distilled water as source water, the liquid water is circularly flowed through the energy magnetic resonance field to the heating source to the freezing source to the small molecular group water for at least 2 times and is packaged into a product, the flow time from the inlet end of the energy magnetic resonance field to the inlet end of the heating source is required to be less than or equal to 30 seconds, the heating temperature of 90-105 ℃ is required to be obtained, the flow distance from the inlet end of the energy magnetic resonance field to the outlet end of the heating source is less than or equal to 30 meters, the flow time from the heating source to the freezing source is less than or equal to 600 seconds, and the flow distance from the heating source to the freezing source is.

3. A water treatment apparatus with an energy magnetic resonance field, which is specially used for the method of claim 1 or 2, and which comprises: a tubular shell (103), two ports of which are respectively sealed by a water inlet end cover (101) and a water outlet end cover (102) with a hole in the middle, a runner plate (106) is respectively arranged in the water inlet end cover (101) and the water outlet end cover (102), a groove-shaped runner (109) is arranged on the inner end surface of the runner plate (106), the runner is bent back and forth and left and right and reciprocates, a lug (110) is arranged in the middle of the runner to ensure that water flow is time-sharing and time-sharing combined, one end of the runner is positioned at the edge of the inner end surface, the other end of the runner is positioned at the center, and the edge end of the runner is provided with; a plurality of sealed permanent magnets (104) are distributed in the plate between the two runner plates, and a magnetic plate (105) with a hole (108) is arranged in the middle;

the outer end face of the runner plate (106) is provided with a convex ring surrounding the center, the wall of the convex ring is provided with a hole, and the top face of the convex ring is tightly attached to the inner end face of the water inlet end cover (101) or the water outlet end cover (102).

4. The energy magnetic resonance field water treatment device according to claim 3, characterized in that: the material of the runner plate (106) is composed of grey pig iron and the radioactivity content of which is less than 7 x 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium, and metallic zinc powder containing less than 5% of metallic titanium or oxides thereof.

5. The energy magnetic resonance field water treatment device according to claim 4, characterized in that: the weight percentage of each component is as follows:

ash iron 95% -97%, radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium 0.5-2%, metal zinc powder containing less than 5% of metal titanium or oxide thereof 1-3%;

said radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium comprises the following components: 10% of magnesium, 40% of iron, 45% of silicon, 3% of calcium and 1% of aluminumAnd 1% manganese.

6. The energy magnetic resonance field water treatment device according to claim 5, characterized in that: the high-temperature smelting process comprises the following steps: firstly, the radioactivity content is less than 7X 10⁴Bq/Kg ore powder containing trace nuclide uranium and thorium, metal zinc powder containing 5% of metal titanium or oxide thereof, then injecting molten pig iron (1400-1800 ℃) into the mixture containing trace nuclide ore powder, metal zinc powder and other materials, and finally casting the mixture through the process of high-temperature combustion-explosion.

7. The energy magnetic resonance field water treatment device according to claim 3, characterized in that: the magnetic plate (105) is a sealed permanent magnet assembly, a permanent magnet with the magnetic field intensity of 1000-4000 gauss is adopted, a box type sealing component is made of engineering plastics, and the permanent magnet is arranged in the box type sealing component to form the sealed permanent magnet assembly.

8. The utility model provides a house kitchen guarding water heater with energy magnetic resonance field water treatment ware, characterized by includes: the container (1) is provided with a water inlet pipe (2) and a water outlet pipe (3) which are positioned at the top, the water inlet pipe (2) is provided with a water inlet extension pipe (4) behind the energy magnetic resonance field water treatment device (8) and extends to the lower part in the container, the container (1) is also internally provided with an electric heating assembly (6), and a circuit of the heating assembly is provided with a mechanical temperature regulator (7).

9. A domestic water heater according to claim 6, wherein: the container (1) is also provided with a shell (5).