TW200413073A - Process for producing water capable of lowering blood sugar level - Google Patents

Abstract

A process for producing water capable of lowering the blood sugar level by drinking ingestion thereof. An apparatus comprising soft water production units (10, 12) packed with ion exchange resin (32), an ion production unit packed with tourmaline mixture (46) composed of tourmaline and aluminum oxide and a rock accommodation unit packed with rocks (54) having negative ions, these units connected in this order in series to each other, is provided, and water is passed in the sequence of ion exchange resin (32), tourmaline mixture (46) and rocks (54) having negative ions. The thus obtained water contains hydroxyl ions (H3O2-), weak energy and negative oxidation-reduction potential in high proportion. When use this water as ordinary drinking water, the blood sugar level can be lowered substantially to the same level as attained by insulin.

Description

200413073 (1). Description of the invention [Technical field to which the invention belongs] The present invention relates to a method for producing a person with a high blood sugar level by ingesting an ingredient to reduce the person's blood sugar level and water. [Prior art] When sugar is excessively taken in, it is broken down by insulin from the pancreas. However, due to the lack of insulin from the pancreas or the effect of water oxidation, insufficient energy conversion of sugars into energy, etc., the blood sugar level rises and diabetes becomes. Those with high blood sugar have traditionally taken insulin by injection to lower blood sugar. Insulin is made artificially based on pharmaceutical composition (see Patent Document 1). Patent Document 1: Japanese Unexamined Patent Publication No. 8-245403 (p. 2 to 4 [Summary of the Invention] Problems to be Solved by the Invention The present invention relates to a method for manufacturing water for reducing blood sugar and sloppy blood vessels by using an ion exchange resin and a tourmaline ( Tourmaline), metal that does not dissolve in water and cause adverse effects on the human body, and rocks that have negative electrons in order to pass water. The present invention also uses ion exchange resins, rocks with negative electrons, and mixed electrical The order of stone and metal that does not dissolve in water and cause adverse effects on the human body is to pass water. -4-(2) (2) 200413073 In order to achieve the above purpose, the present invention relates to the production of water for reducing blood sugar. The method is to mix tourmaline with metals that do not dissolve in water and cause adverse effects on the human body, and rock with negative electrons as the first and the other as the latter to pass water. Decompose sugar in the body Insulin is activated by a large amount of hydroxyl ions (Η 3 Ο f) produced by wound water. In addition, it is based on the weak energy or negative redox potential of wound water It can easily convert the glucose in the body into energy. When such invasive water containing a large amount of hydroxyl ions (H3 02 —) or weak energy or negative redox potential is used for daily drinking water intake, blood glucose can be reduced. In addition, According to the use of ion exchange resin to remove Ca2 +, Mg2 +, or Fe2 + metal ions, soft water can be used as a suitable water, and can increase the amount of hydroxyl ions (H3 02 _). [Embodiment] Used to implement the invention The best form of the first embodiment is the second embodiment of the present invention. Fig. 1 is a structural diagram showing one embodiment of the device for producing water for reducing blood sugar in the present invention. The first soft water generator 10 and the second soft water generator 12 and the ion generator 14 and the rock container 16 are connected in series through the connecting pipes 18a, 18b, and 18c. The first soft water generator 10 will have, for example, tap water. The pressured water is supplied from the water supply pipe 20 through the connection pipe 22 to the (3) (3) 200413073 1 soft water generator 1 0. Between the water supply pipe 20 and the connection pipe 22, there is a faucet General entrance The valve 24 is closed, and the connection pipe 22 is provided with a backflow prevention valve 26 in the middle. A discharge pipe 28 is provided at the outlet of the rock container 16, and an outlet switch valve 30 is provided at the tip or halfway of the discharge pipe 28. For tap water The water system sent from the water supply pipe 20 passes through the order of the first soft water generator 10, the second soft water generator 12, the ion generator 14, and the rock container 16 in order, and the outlet switch valve 30 is opened, and discharged. Take out the tube 28. Although it is not shown in the figure other than tap water, the water stored in the water tank can be introduced into the first soft water generator 10 through the water supply tube 20. At this time, the water tube and the first soft water are generated. A counter-flow prevention valve 2 6 is provided between the device 10 and the first soft water generator 10 and the second soft water generator 12 are capable of accommodating a large amount of granular ion-exchange resin 32 inside. The cross-sectional view is shown in FIG. 2 Show. The bodies 34 of the soft water generators 10 and 12 are cylindrical, and the upper and lower ends of the cylindrical shape have water inlets and outlets 36a and 36b. On the inner wall of the inner portion of the cylindrical body 34, which is slightly separated from the upper and lower end faces, shield materials 38a and 38b with central openings are provided, respectively. Between the pair of shield materials 38a and 38b ', the ion exchange resin 32 is housed in a state where it is placed in the fine mesh 40. From the upper and lower entrances and exits 36a and 36b to the inner wall of a slightly separated position, a shield material 3 with a central opening is provided. The 8-series is made of ion exchange resin 3 2 with a fine mesh 40 and arranged on a pair of shield materials 38. In order to form spaces 42a and 42b near the entrances 36a and 36b. In addition, "the central hole of the shield materials 38 & and 38b" allows water to come in and out "so that the water must be in contact with the ion exchange resin 3 2. The ion exchange resin 32 is placed in the fine mesh 40 to remove granular ions. (4) (4) 200413073 When the exchange resin 3 2 is washed, the entire fine mesh 40 and the granular ion exchange resin 32 can be taken out. The first soft water generator 10 and the second soft water generator 12 have, for example, a height of 80 cm and an inner diameter of 10 cm. Next, for example, the valley degree of the ion exchange resin 32 is 70 cm (the upper and lower spaces 42a and 42b exist). At this time, the storage height of the ion exchange resin 32 must be at least a height sufficient for ion exchange. On the other hand, if the storage height of the ion exchange resin 32 is too high (for example, when the storage height of the ion exchange resin 32 is about 200 cm or more), because the ion exchange resin 32 becomes a resistance to water, the flow rate through the soft water generator is reduced. Therefore, the storage height of the ion exchange resin 32 must be a height that does not reduce the flow rate. The capacity of the ion exchange resin 32 is divided into two parts to reduce the height of the first soft water generator 10 and the second soft water generator 12 to the same degree as the ion generator 14 or the rock container 16, and to Avoid loss of water pressure and reduced flow when passing there. In addition, two soft water generators 10 and 12 are combined into one, and it can also be formed into one soft water generator. The inner diameter of the soft water generator, the storage height of the ion exchange resin 32, and the number of connected soft water generators can be arbitrarily set according to the flow rate of water. The ion exchange resin 32 removes metal ions such as Ca2 +, Mg2 +, or Fe2 + contained in water, and softens water. As the ion exchange resin 3 2 ', for example, a strongly acidic cation exchange resin (RzS03Na) which uniformly sulfonates a spherical copolymer of styrene-divinylbenzene. This ion exchange resin 32 undergoes the following ion exchange reaction with metal ions such as Ca2 +, Mg2 + or Fe2 + contained in water. (5) (5) 200413073 2 RzS03Na + Ca2 + ^ > (Rzs〇3Na) 2Ca + 2 Na + 2 RzS03Na + Mg2 + ^ (RzS03Na) 2Mg + 2Na + 2 RzS〇3Na + Fe2 + ~ (RzS〇3Na) 2Fe + 2 Na + 'According to the ion exchange resin 32, Ca2 + or Mg2 + or + contained in water can be removed. As the ion exchange resin 32, when a strongly acidic cation exchange resin (RzSOsNa) is used, sodium ions (Na +) are generated. Although the ion-exchange resin 32 can generate Na + other than Na ', it is preferable to generate Na +. When water is tap water, the tap water contains chlorine ′ in addition to metal ions such as Ca2 +, Mg2 +, or Fe2 +, but does not cause any change in the chlorine depending on the tap water passing through the ion exchange resin 3 2 ′. On the other hand, according to water (H2O) passing through the ion exchange resin 32, the following changes occur. H2〇- > H + + 0H ~ ...... (1) H2〇 + H + H30 + ...... (2) That is, 'as shown in (1) and (2), according to Resin 32 generates hydroxide ions (OH-) and hydrated hydrogen ions (h30 +) from water. Therefore, when water is hard water, metal ions such as Ca2 +, Mg2 +, or Fe2 + are removed from the water by ion exchange resin 32. Become Soft Water-8-(6) (6) 200413073. In addition, according to the ion exchange resin 32, Na + and OH— and hydrated hydrogen ions (H30 +) are generated in water. However, the chlorine (C1) contained in the tap water does not ionize and passes directly. In addition, depending on the type of the ion exchange resin 32, Na + may not be generated. Second, a partial cross-sectional view of the above-mentioned ion generator 14 is shown in FIG. 3. The ion generator 14 is provided with a plurality of tubular columns 44 at the same time, and is continuously connected up and down to form an inline. Inside each of the pipe columns 44, a granular tourmaline 46 and a plate-shaped metal 48 are housed. If the tourmaline has a positive electrode and a negative electrode, the positive electrode and the negative electrode have electromagnetic waves with a wavelength of 4 to 14 micrometers in the water, and cut off the molecular group of water (Cluster, the state where the water molecules are connected). Those who produce hydroxyl ions (H3 0 +). This electromagnetic wave having a wavelength of 4 to 14 micrometers has an energy of 0.004 w a 11 / cm 2. Although the so-called tourmaline 46 here can be a person who crushes tourmaline, it can also be a commercially available tourmaline called tourmaline ingot, and the weight ratio of ceramics and alumina (also containing silver) is about 10: 80: 1 0 tourmaline mixture. The ceramic system contained in this tourmaline ingot acts to separate the positive and negative electrodes in advance. Here, the tourmaline 46 is mixed at a ratio of 10% or more by weight with respect to the ceramic, and when heated at 800 ° C or more, 'stirring based on water can be made for a certain period of time (for example, a diameter of 4mm' is about 3 Month) The tourmaline disappeared 46. As the metal 48, at least one metal of zinc, aluminum, stainless steel, and silver is used. The metal 4 8 is preferably a metal that does not rust or dissolve in water 'and does not cause adverse effects on the human body. Among the metals 48, zinc or aluminum has a bactericidal effect or an antibacterial effect and a bleaching effect, while a non-mirror steel has a bactericidal effect or an antibacterial effect and an improved cleaning effect, and the silver has a bactericidal effect or Antibacterial effect. Although zinc or aluminum has a bleaching effect and stainless steel has an improved cleaning effect, silver has a stronger bactericidal effect or antibacterial effect than zinc, aluminum, or stainless steel. Therefore, for example, when bleaching is required and the bactericidal effect or antibacterial effect is enhanced, It is sufficient to mix silver in aluminum. As metal 48, copper or lead cannot be used because it has a toxin. In addition, expensive materials such as gold cannot be used in terms of cost. The weight ratio of the tourmaline 46 and the metal 48 is preferably about 10: 1 to 1:10. The tubular column 44 is a cylindrical shape with one end open, and the bottom surface 50 is provided with a large number of holes 52. When the tourmaline mixture 46 and metal 48 are placed inside the pipe string 4, the size of the hole 52 is set so that the tourmaline 46 or the metal 48 cannot pass through the hole 52 of the bottom surface 50. As shown in Fig. 3, each pipe string 44 has a bottom surface 50 provided with a large number of holes 52 as a lower side ', and a tourmaline 46 or a metal 48 is carried above the bottom surface 5G. Next, the inside of the setting pipe string 44 flows upward from below. That is, in each pipe string 44, the water system passing through the holes 5 2 of the bottom surface 50 is set to be sprayed on the tourmaline 46 and the metal 48 from bottom to top. Here, because the tap water has a high water pressure, the size and number of the holes 5 2 are set to make the water with water pressure collide with the tourmaline 46 and the metal 48 in the pipe string 44 with the power of the water. In the pipe column 44, tourmaline 46 and metal 48 are stirred. Various methods can be considered for using the force when water is passed through the tube string 44 to stir tourmaline 46 and metal 48, and any conventionally known stirring method can be used. Water was sprayed on the tourmaline, and the tourmaline was agitated to rub the tourmaline with water by the stirring, the electrodes dissolved in the water, and the molecular groups of water were cut off to generate a large number of hydroxyl ions (（3 +). In addition, water having a pressure like tap water -10- (8) 200413073 can be sprayed on tourmaline from the bottom through the hole 5 2 without the need for mixing means. As an example of actual installation, the pipe string 44 having a storage volume with an inner diameter of 5 cm and a length of 7 cm is superimposed on 4 layers. Although the tourmaline 46 and the metal 48 are filled in the pipe string, the tourmaline 46 and the metal must be included. 48 Freely moving portion in column 44. The number of layers can be increased or decreased, and it is also a string of 4 to increase the containment volume. In this way, the tourmaline 46, 48 is dispersed in a plurality of pipe columns 44 having a reduced storage volume, and the plurality of pipe columns 44 are connected, and the stirring efficiency of the tourmaline 46 and the gold layer can be improved by the power of water. The tourmaline 46 contained in the pipe string 44 disappears after dissolving in water for several months. Therefore, each pipe string 44 is, for example, screwed, etc., and can be easily attached and detached, and the tourmaline 46 in each pipe string 44 can be easily supplemented. Although the metal 48 does not dissolve in water, so no replenishment is needed, and the tubular string 44 containing tourmaline 46 and metal 48 can be replaced as a whole. Guan Jie can also change its containment volume according to the size of the flow. In the tourmaline 46, since the tourmaline has a positive electrode and a negative electrode, when the tourmaline is mixed, water (H2〇) dissociates into hydrogen ions (H +) and hydroxide ions (in addition, according to the hydrogen ions (H +) and water (H2〇), Generates surface active hydrated hydrogen ions (H3〇 +). The production of this hydrated hydrogen ions (+) is significantly more agitated than that based on the above-mentioned ion exchange resin 3 2. In 48, the means 〇 another but also £ 44 water stirred OH ~ bounded h3o produced -11-(9) (9) 200413073 the amount of production is more. H2〇 + H + — H3〇 + ... .. (2) The hydrated hydrogen ion (H3〇 +) and water (H2〇) in this part are bonded to form hydroxyl ion (H3〇2_) and hydrogen ion (H +) ° H30 + + H2O — H3 02 — + 2H + (3) Water passing through the ion exchange resin 32 will pass through the ion generator 14 to generate hydronium ions (Η 3 Ο +), hydroxyl ions (Η302—), Η + And 〇Η—. In addition, the chlorine (C1) of the ion exchange resin 32 and Na + generated by the ion exchange resin 32 pass directly through the ion generator 14 without reacting. The water of 14 passes secondly through the interior of the rock container 16 containing the rock 54 with negative electrons. As the rock 54 with negative electrons 54 'obsidian or perlite or turpentine is now known. Except for obsidian or perlite or turpentine Other than rocks, it can be used as long as it has negative electrons. These obsidian, perlite, or turpentine systems have a redox potential of 20 to 24 mmv in the original state. However, the rock 54 is dissolved in water ' It is used to remove harmful substances such as water. The rock container 16 is, for example, a cylinder with an inner diameter of 10 cm and a height of 80 cm. The inner volume of the container is about 5 mm to 50 mm. -12- (10) (10) 200413073 which does not decrease the amount of water passing through. When the water passing through the ion generator 14 is passed through the inside of the rock container 16, e-(minus) is added to the water. Electron). This result is chlorine (C1) contained in tap water, which becomes a chloride ion due to negative electrons.

Cl + e ~ cr ...... (4) This cr and the above-mentioned Na + become a stable state of ions. The stable state means that the ion state is maintained for a long time without evaporation. In addition, the above-mentioned hydroxyl ion (H3 0 plant) has also become a stable state as an ion. According to the passage of water through the rock 54, compared with the passage through the ion generator 14, more hydrated hydrogen ions (H30 +) are generated, and moreover, hydroxyl ions (H3 02-) are also generated. H2〇 + H + — H30 + ...... (2) H30 + + H2 0 — H30 2 '+ 2H + ...... (3) The following reactions also occur depending on the water passing through the rock 5 4. OH ~ + H +-> H2〇 ...... (5) 2 H + + e— — > 2 H2 ...... (6) In addition, when water passes through the rock container 16, it is based on rock 54 For the negative electron, the redox potential of water changes from + 3 40mmv to -20 to-240mmv. When using hot water instead of water, the negative redox potential is more stable • 13- (11) (11) 200413073 As mentioned above, first let water pass through ion exchange resin 3 2 and adopt _ tourmaline 46 and metal 48 'Finally In the water passing through the rock 54 (hereinafter referred to as wound water), Na +, C1 —, H +, 〇Η —, hydronium ions (Η 3 Ο +), and hydroxyl ions (Η 3 0 2 ~). In addition, the wound water system has an electromagnetic wave with an energy of 0.004 watt / cm2 and a wavelength of 4 to 14 micrometers, and has a redox potential of 20 to 240 mmv. The results of the water quality inspection of this wound water are shown below. The comparison of tap water with this wound water is shown in parentheses. However, when the tap water is the same as the wound water, it is expressed as "same". Nitrite nitrogen and nitrate nitrogen: 1.8 mg / l (same), chloride ion: 6.8 mg / l (9.0 mg / 1), general bacteria: 0 ml (same), cyanide ion: 0.01 mg / l Full (same), Mercury: 0.0005 mg / l or less (same), Organic Neighborhood: 0.1 mg / l or less (same), Copper: 0.01 mg / l or less (same), Iron: 0.05 mg / l Underfill (0.08mg / l underfill), Manganese: 0.01mg / l underfill (same), Zinc: 0.05mg / l underfill (0.054mg / l underfill), lead · 〇 · 〇1 mg / 1 under (same), hexavalent chromium: 0.02 mg / 1 under (same), cadmium: 0.005 mg / l under (same), arsenic: 0.00 5 mg / l (under Identical), Fluorine: 0.15 mg / 1 under (identical), Gold, Magnesium, etc. (Hardness): 1.2 mg / l (49.0 mg / 1), Samarium: 0.00 5 mg / l below (identical), Anion Surfactants: 0.2mg / i or less (same), acid-base 値 ·· 6 · 9 (same), odor ·· no peculiar smell (same), taste ·· no peculiar smell (same), chroma ·· 2 degrees (same) and turbidity 0 degrees (1 degree). -14- (12) (12) 200413073 This traumatic water system has many features listed below. (a) It has interfacial activity. The wound system contains hydronium ions (H30 +) and hydroxyl ions (H30r), and has interfacial activity (0 W-type latex emulsification). (b) Antibacterial and bactericidal effects As any of the metals zinc, aluminum, stainless steel and silver, they have antibacterial and bactericidal effects. In addition, when Na + is generated according to the ion exchange resin 32, Na + also has an antibacterial effect and a bactericidal effect. (c) Weak energy (grow light) Tourmaline emits weak energy (electromagnetic waves with a wavelength of 4 to 14 microns). This weak energy cuts off the macromolecular group of water, and releases the toxic gases or heavy metals held in the molecular group from the outside to become healthy water for human use. This weak energy is easily absorbed by objects or animals and plants because it absorbs light, which makes human atoms, molecules, or cells in an excited state, and gives good effects to cells including humans and plants. (d) Effect of removing active oxygen Wound water has a redox potential of -20 to 240mmv. Based on its negative redox potential, active hydrogen is generated and the active oxygen reduction in the human body is reduced. Figure 5 shows the results of ingestion of wound water during the long-term period of blood glucose. Fig. 5 shows the results of 8 persons with high blood glucose, who used the results from 1 month to 2.5 months. Investigate the situation when only taking trauma water, and taking 2 to 4 mirrors of oral medicine and diarrhea daily while taking trauma water, and injecting insulin and diarrhea. In addition, the so-called ingestion of trauma water is not a special matter of -15- (13) (13) 200413073, but is installed at the source of the household water pipe, as shown in Figure 1, because the trauma is released by the tap Water, so in daily life, generally turn on the faucet, you can use the creation of water for cooking (for cooking rice or miso soup or coffee, etc.). As shown in FIG. 5, the blood glucose level (mg / dL) before and after ingestion of the eight patients with high blood glucose levels was reduced by 50 to 216 compared with that before intake. Approximately the same effect can be obtained even when compared to those who only take wound water, those who use wound water and oral medicine, and those who use wound water and insulin injection. Comparing the blood glucose levels before and after ingestion of the wound water as shown in FIG. 5 in this way, it can be seen that the intake of the wound water system is similar to that of taking oral medicine or injecting insulin to lower blood glucose. Next, a comparison of the effects of invasive wound water intake and insulin intake will be described with reference to FIG. 6. Fig. 6 shows a graph showing changes in blood glucose after using glucose in mice that were experimentally set to suffer from diabetes, and that mice were fed with wound water or insulin for 2 months. Fig. 6 is a survey of five kinds of mice (diabetic mice, mice that are diabetic, mice that only take invasion fluid, mice that are diabetic, insulin-administered mice, and normal mice )By. The graph in FIG. 6 shows the blood glucose level at 0 minutes before glucose administration (glucose administration immediately thereafter), the glucose level at 30 minutes after glucose administration, and the blood glucose level at 90 minutes later. . The time of 0 minutes indicates the blood glucose level of 5 kinds of mice at normal time. 30 minutes after administration of glucose, the blood glucose level rises to the highest level, and then the blood glucose level gradually decreases. The blood glucose level after 90 minutes does not indicate a decrease in blood glucose level. As shown in Fig. 6, at 0 minutes and 30 minutes and 90 minutes at all 16- (14) (14) 200413073, only mice that used wound water (average of multiple mice) ) The blood glucose level is similar to that of insulin (average of multiple mice) and the blood glucose level of 2 times of insulin (average of multiple mice). From this, it can be seen that the effect of reducing the blood glucose level by using ingested wound water can be about the same as that of insulin. In the second embodiment, in the first embodiment, water is passed through the ion exchange resin 3 2, tourmaline 4 6 and metal 4 8, and rock 5 4. However, water may be passed through the ion exchange resin 32 and the rock 54. Order of tourmaline 46 and metal 48. That is, as shown in FIG. 4, the sequence of passing water through the first soft water generator 10 and the second soft water generator 12, the rock container 16, and the ion generator 14 may be passed. In this case, it may be set in the ion generator 14 to move water from bottom to top. In this second embodiment, water passes through the ion exchange resin 32 and then passes through the rocks 54. According to this rock 5 4, e — (negative electrons) occur inside the water. This result is due to the chlorine contained in the tap water, which becomes chlorine ions due to the negative electrons. C1 + e — Cl ...... (4) The CP and Na + generated by the ion exchange resin 32 are in a stable state of ions. In addition, even if the water passes through the ion exchange resin 32, Na + may not be contained. -17- (15) 200413073 In the water passing through the ion exchange resin 32, as shown in (1) and (2) above, H +, OH-, and H30 + are present. The water passing through the ion exchange resin 32 and then passing through the rock 54 undergoes the following reaction. 〇H— + H + — H20 ...... (5) H2〇 + H + H30 + ...... (2) 2 H + + e — > 2 H 2 ...... (6) In this reaction, a larger amount of hydrated hydrogen ions (H3 0+) is generated than that generated by the above-mentioned ion exchange resin 32. As described above, after the ion exchange resin 3 2 passes through the rock 5 4, the water becomes Na + and OH—, and C1— and hydrated hydrogen ions (H30 +) are newly formed. In addition, the redox potential of the water passing through the rock 54 becomes -20 to 240 mmv. When using hot water instead of water, the negative redox potential is more stable.

The water passing through the rock 54 then passes through the inside of the ion generator 14 containing tourmaline 46 and metal 48. As a result, the following reactions occur. Η 2 Ο H ++ OH (1) Η 2 Ο + Η + — Η 3 Ο + (2) This hydrated hydrogen ion (Η3 Ο +) occurs in large amounts. In addition, some of the hydronium ions (Η30 +) become hydroxyl ions (Η3 02 —). -18- (16) 200413073 H3〇 + + H2〇- > H3〇2— + 2H + ...... (3) This result is that the original Na +, C1—, OH—, hydronium ion (H30 +), hydroxyl H3 02-) and H +. In other words, Na +, Cl—, OH—, hydration (H30 +), hydroxyl ion (H3 02-), and H + exist in the wound water produced by the second embodiment and the wound water produced by the first embodiment, For the same performance, it has a redox potential of 4 to 14 microns with an energy of 0.004 watt / cm2, and a 20 to -24 Ommv. As a result, the wound water produced in the embodiment has the same effect as that produced in the first embodiment. Third implementation type This third implementation type does not use the first soft water and the second soft water generator 12 in the first figure, and is a rock containing tourmaline 46, a gold ion generator 14, and a rock 54. Receive container 16 in a row. Because it does not pass through the ion exchange resin, tap water that reaches the ionic moon contains unremoved Ca2 +, MgZ +, or Fe2 + ions. In addition, 0H — or hydrated hydrogen ions (H30 +) as shown in (1) and (2) above are not generated. Here, when tap water passes through the ion generator 14, hydrogen Η) and hydroxide ions (OH-) are generated. Existing ions (parts of hydrogen ion type. In addition, the electromagnetic wave is the 2nd generation of water generator 48 and the metal H + or ions connected to the straight dagger 14 (-19- (17) 200413073 H2〇-H + + OH ' ... (1) Among these hydrogen ions (H +) and hydroxide ions (OH—), the hydrogen ions (H +) and water (H20) are bonded to form hydrated hydrogen ions (H30 +

H2 + H + — H30 + (2) In this way, H + and OH — and hydroxyl ions (h3 02 —) are generated by the water 'of the ion generator 14 containing tourmaline 46 and metal 48. In addition, an electric wave having a wavelength of 4 to 14 microns with an energy of 0.004 watts / cm2 passes through the water of the ion generator 14, and then passes through the rock container 16 containing the rock 54. First, Chlorine becomes chloride due to the operation of negative ions.

Cl + e— — Cl— ...... (4) This c 1-becomes the stable state of ions. The stable state means that the ion state is maintained for a long time without evaporating. In addition, the hydronium ion (H30 +) is also generated. Part of the hydronium ion (H30 +) reacts with water to form a hydroxyl ion (H30-2—).

H30 + + H20 — H3O2 " + 2H -20- (18) (18) 200413073 This hydroxyl ion (Η; Plant 0) becomes a stable state of ions. In addition, the following reactions occur depending on the passage of water through the rock 54 '. OH " + H + — H2〇 ...... (5) 2H ++ e— — > 2 Η 2 ...... (6) That is, according to water passing through the rock 5 4, such as (1), ( 6), (2) and (3), the presence or generation of OH—, H +, hydronium ion (h3o +), and hydroxyl ion (H3 02 —). In addition, according to the passage of water through the rock 54, it becomes a redox potential of 20 to -24 mm. This brother. In the Bei Shi type, because the water does not pass through the ion exchange resin, the water may contain metal ions such as Mg2 + or Fe2 +, and it is different from the first Bei J type or the second penetration type. That is, because water may be hard water and it does not contain Na +, the antibacterial effect and sterilization effect are somewhat reduced. However, because the metal 48 has an electromagnetic wave with a wavelength of 4 to 14 microns and a redox potential of 20 to 240 mmV, it has the antibacterial and bactericidal effects of (b) above, and the weak energy of (ε) ( Bred light) actors. Fourth Embodiment This fourth embodiment is an ion generator that exchanges the third embodiment -21-(19) 200413073 14 and the rock container 16. That is, since the ion-exchange resin 32 is not passed, the rock 54 passes first, and then the tourmaline 46 and the metal 48 pass through. This embodiment is also the same as the third embodiment. Finally, it contains metal ions such as Ca2 +, Mg2 +, or Fe2 +, but does not contain Na + in the water. Here, when tap water is passed through the rock container 16, the chlorine It becomes chloride ion by negative ion.

Cl + e— Cl— ...... (4) Secondly, when the water passing through the rock container 16 passes through the tourmaline mixture 46 and the mixing metal 4 8, it is hydrolyzed and separated into hydrogen ions (Η + ) And hydroxide ions (ΟΗ—). H2〇-> H + + ΟΗ ~ ...... (1)

Among these hydrogen ions (H +) and hydroxide ions (OH—), the hydrogen ions (H +) and water (H20) are bonded to produce hydrated hydrogen ions (H30 +) H2〇 + H + — H30 + ...... (2) That is, according to the passage of water through the rock 54, as shown in (1) and (2), OH—, H +, and hydronium ions (H30 +) are generated. In addition, according to Shui Tong -22- (20) (20) 200413073 passing through the rock 54, the water has a redox potential of 20 to 240 mmv. The water passing through the rock 54 and then the ion generator 14 containing tourmaline 46 and metal 48 are passed. As a result, hydrated hydrogen ions (H30 +) are generated. Some of the hydronium ions (Η3 Ο +) react with water to form hydroxyl ions (h3o2-). Η30 + + Η2〇 θ Η3 02 _ + 2Η + ...... (3) In addition, according to the passage of water through the rock 5 4, the following reaction also occurs. OH— + Η + — Η2〇 ...... (5) In this way, the rock 5 4 is first passed, and then the tourmaline mixture 4 6 and the mixed metal 4 8 are passed through, such as (4), (1 ), (2), and (3), Cl—, Η +, ΟΗ—, hydronium ions (η30 +), and warp ions (Η302) are produced. In addition, water has electromagnetic waves having a wavelength of 4 to 14 m. This fourth embodiment is different from the first embodiment or the second embodiment in that water does not pass through the ion exchange resin, and the water may contain metal ions such as Ca2 +, Mg2 +, or Fe2 +. That is, since water may be hard water, the washing effect is inferior to that of the first embodiment or the second embodiment. In addition, because it does not contain Na +, the antibacterial and bactericidal effects are somewhat reduced. However, since the metal 48 has an electromagnetic wave having a wavelength of 4 to 14 micrometers and a redox potential of -20 to ~ 240 mmv -23- (21) 200413073, it has the same (b) as the third embodiment described above. Antibacterial and bactericidal effects, and the weak energy (bred light) of (c). In the second embodiment or the third embodiment, when the wound water in the second embodiment is ingested, the same results as in the first embodiment can be obtained as shown in Fig. 5 or Fig. 6 The same result can reduce blood sugar.

EFFECTS OF THE INVENTION As described above, in the present invention, water is passed through three types of ion exchange resin, tourmaline, etc., and rock, and water is passed through two types of tourmaline, etc., and rock. Ingestion of water (traumatic water) made by these people according to the actual consumption can reduce blood glucose by about the same level as insulin. Because the trauma water is taken as daily drinking water, injections such as insulin are not performed, and there is no pain associated with pain.

[Brief Description of the Drawings] FIG. 1 is a structural diagram showing an embodiment of the manufacturing apparatus for the water for reducing blood sugar in the present invention. Fig. 2 is a sectional view of a soft water generator used in the manufacturing apparatus shown in Fig. 1. FIG. 3 is a cross-sectional view of an important part of the ion generation benefit of the manufacturing apparatus shown in FIG. 1. FIG. Fig. 4 is a structural diagram showing another embodiment of the manufacturing apparatus for the blood glucose reducing water according to the present invention. -24- (22) (22) 200413073 Figure 5 is a table showing blood glucose levels before and after ingestion of wound water for people with high blood glucose levels. Fig. 6 is a graph showing changes in blood glucose levels after administration of glucose to mice receiving wound water and mice receiving insulin. DESCRIPTION OF SYMBOLS 10: 1st soft water generator 12: 2nd soft water generator 14: ion generator 16: rock container 1 8a: connection pipe 1 8b: connection pipe 1 8c: connection pipe 20: water supply pipe 22: connection pipe 24: inlet switch valve 2 6 ·· backflow prevention valve 2 8: discharge pipe 30: outlet switch valve 3 2: ion exchange resin 3 4: main body 3 6 a: entrance 36b: entrance 3 8 a: Shield material-25- (23) (23) 200413073 3 8 b: Shield material 4 〇: Fine mesh 4 2 a: Space 4 2 b: Space 44: Pipe string 4 6: Tourmaline mixture 4 8: For mixing Metal 50: bottom 5 2: hole 54: rock-26-

Claims (1)

(1) (1) 200413073 Patent application scope 1 · A method for manufacturing water for reducing blood sugar, which is characterized by the use of ion exchange resin, tourmaline and metal dissolved in water without causing adverse effects on the human body , And the order of rocks with negative electrons, who pass water. 2 · The method of manufacturing water for reducing blood glucose, such as item 1 of the scope of the patent application, wherein the ion exchange resin generates sodium ions according to ion exchange. The method of water 'wherein the metal is formed of at least one of zinc, aluminum, stainless steel, and silver. 4. The method of manufacturing water for reducing blood sugar according to item 3 of the patent application 'wherein the weight ratio of the tourmaline to the metal is 10: 1 to 1: 10 005 · If the production of item 1 of the patent application is reduced The method of blood sugar 値 water, wherein the tourmaline is mixed with ceramics in a weight ratio of 10% or more, and heated at 8000 or more. 6. The method for manufacturing water for reducing blood sugar level according to item 1 of the patent application ', wherein the tourmaline and the metal are stirred with water. 7. The method for manufacturing water for reducing blood sugar level according to item 1 of the scope of the patent application, wherein the rock having negative electrons is formed from at least one of obsidian, perlite, and turpentine. 8 · Method for manufacturing water for reducing blood sugar level as in item 1 of the scope of patent application ', wherein the rock having negative electrons is heated above 80 0 ° C-27-(2) (2) 200413073 9. One A method for producing water for reducing blood sugar level is characterized by passing water in the order of an ion exchange resin, a rock having negative electrons, and a mixture of tourmaline and a metal dissolved in water without causing adverse effects on the human body. 10. The method for manufacturing water for reducing blood glucose level, such as the scope of patent application item 9, wherein the ion exchange resin generates sodium ions based on ion exchange. The method, wherein the metal is formed of at least one of zinc, aluminum, stainless steel, and silver. i 2. The method for manufacturing water for reducing blood sugar according to item 11 of the scope of patent application, wherein the weight ratio of tourmaline to the metal is 10: 1 to 1: 10 ° 1 3 The method for producing water for reducing blood sugar level in the item, wherein the tourmaline is mixed under the ratio of 10% or more by weight to the ceramic, and heated at 800 ° C or more. 14. The method for manufacturing water for reducing blood sugar level according to item 9 of the patent application scope, wherein the tourmaline and metal are stirred with water. 15 · The method for manufacturing water for reducing blood glucose, such as item 9 in the scope of the patent application, wherein the rock having negative electrons is formed from at least one of obsidian, perlite, and turpentine. 1 6 · Method for manufacturing water for reducing blood sugar level, such as item 9 of the scope of the patent application, wherein the rock having negative electrons is heated at 800 ° C or higher -28- (3) 200413073 17. • -Production reduction The method of blood sugar drenching water is characterized in that one of the tourmaline and the metal dissolved in water without causing adverse effects on the human body, and the rock with negative electrons is used as the first, and the other is used as the latter, and the water is passed through. . 18. The method of manufacturing water for reducing blood sugar level according to item 17 of the patent application scope, wherein the metal is formed of at least one of zinc, aluminum, stainless steel, and silver. 1 9 · The method for manufacturing water for reducing blood sugar, such as item 17 in the scope of patent application, wherein the weight ratio of tourmaline to the metal is 10: 1 to 1: 10 ° 2 0 · As in the scope of patent application 1 7 The method for producing water for reducing blood sugar level in the item, wherein the tourmaline is mixed under the ratio of 10% or more by weight to the ceramic, and heated at 80 ° C or more. 2 1. The method for manufacturing water for reducing blood glucose and blood sugar according to item 17 of the scope of patent application, wherein the tourmaline and the metal are stirred with water. 22. The method for manufacturing water for reducing blood glucose, such as item 17 in the scope of the patent application, wherein the rock having negative electrons is formed from at least one of obsidian, perlite, and turpentine. 2 3. The method for manufacturing water for reducing blood sugar level according to item 17 of the scope of patent application, wherein the rock having negative electrons is heated at 800 ° C or higher. 0 -29-