CN112715811A - Electrolyzed negative hydrogen ion cyclocarya paliurus regenerated water and preparation method thereof - Google Patents
Electrolyzed negative hydrogen ion cyclocarya paliurus regenerated water and preparation method thereof Download PDFInfo
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Abstract
The invention discloses electrolytic negative hydrogen ion cyclocarya paliurus regenerated water and a preparation method thereof, wherein the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 10-70 parts of pearl shell powder, 10-50 parts of Muyu stone powder, 15-50 parts of cyclocarya paliurus leaf powder, 25-40 parts of mulberry leaf powder, 20-40 parts of kudzu root powder, 45-60 parts of oat powder, 25-40 parts of xylitol and the balance of water. The preparation method comprises the following steps: cleaning and drying mother-of-pearl and Muyu stone, and grinding to obtain powder; cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading; uniformly mixing nacre powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol according to the weight parts of the raw materials, putting the mixture into a container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiling for 0.5h, and slowly stirring the mixture; and after heating and dissolving, sealing the container, and standing to normal temperature to obtain a finished product. The regenerated water can quickly realize the effect of the cyclocarya paliurus leaves and reduce blood sugar.
Description
Technical Field
The invention relates to the technical field of health care products, in particular to cyclocarya paliurus regenerated water with electrolysis negative hydrogen ions and a preparation method thereof.
Background
Negative hydrogen ions (H-), also called hydride ions, are not brought into the field of plasma physics until recently, the hydrogen in this state carries more electrons on the atom, so the negative ions are charged negatively and become negative ions, the negative hydrogen ions have super-strong oxidation resistance, active oxygen free radicals which bring various skin problems can be effectively eliminated and converted into water at the cell level, the negative hydrogen ions can improve the capability of an organism oxidation resistance system, act in cell mitochondria, the life kinetic energy ATP is enhanced, the metabolic capability of the organism is improved, the capability of the organism immune system is enhanced, oxidation resistance can be realized, and the life kinetic energy can be fundamentally enhanced.
Cyclocarya paliurus, another name: cyclocarya paliurus, mountainous trees, juglandaceae and cyclocarya paliurus plants are found in most provinces in south China and are distributed sporadically, cyclocarya paliurus is a rare tree species surviving in the four seasons of glacier, only exists in China, is known as panda in the plant world and a third tree in the medical world, and people know that the first tree in the medical world, namely willow, generates aspirin, diminish inflammation, sterilize and resist thrombus, uncovers the first change of human health history, and after heart and cerebral vessels, cancers and tumors, hyperglycemia is now the second largest killer of human beings, and then people find cyclocarya paliurus and process the leaves of the cyclocarya paliurus into cyclocarya paliurus tea.
At the present stage, the cyclocarya paliurus leaf tea powder or tea bags on the market are directly soaked by hot water, the effective components of the cyclocarya paliurus leaves cannot be fully extracted, and the body of a user cannot rapidly absorb the effective components of the cyclocarya paliurus leaves after drinking, so that the health care and treatment effects of the cyclocarya paliurus leaves are slow and unobvious, and the cyclocarya paliurus leaf tea is bitter in taste and difficult to enter the mouth in the drinking process.
Disclosure of Invention
The invention aims to provide cyclocarya paliurus regenerated water with electrolysis negative hydrogen ions and a preparation method thereof, and the regenerated water can quickly realize the health care and treatment effects of cyclocarya paliurus leaves, greatly reduce blood sugar and has good drinking taste.
In order to achieve the purpose, the invention adopts the following technical scheme:
the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 10-70 parts of pearl shell powder, 10-50 parts of Muyu stone powder, 15-50 parts of cyclocarya paliurus leaf powder, 25-40 parts of mulberry leaf powder, 20-40 parts of kudzu root powder, 45-60 parts of oat powder, 25-40 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 10 parts of nacre shell powder, 10 parts of muyu stone powder, 15 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 70 parts of nacre powder, 50 parts of muyu stone powder, 50 parts of cyclocarya paliurus leaf powder, 40 parts of mulberry leaf powder, 40 parts of radix puerariae powder, 60 parts of oat powder, 40 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 65 parts of pearl shell powder, 45 parts of muyu stone powder, 35 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 50 parts of oat powder, 40 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 65 parts of pearl shell powder, 48 parts of muyu stone powder, 40 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 32 parts of radix puerariae powder, 40 parts of oat powder, 30 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 60 parts of nacre powder, 40 parts of muyu stone powder, 30 parts of cyclocarya paliurus leaf powder, 20 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 40 parts of nacre powder, 25 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 22 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 45 parts of nacre powder, 32 parts of muyu stone powder, 28 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
Preferably, the raw materials of the regenerated water of cyclocarya paliurus for electrolyzing negative hydrogen ions comprise, by weight: 30 parts of nacre powder, 22 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 55 parts of oat powder, 25 parts of xylitol and the balance of water.
The invention also provides a preparation method of the electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water, which comprises the following steps:
the method comprises the following steps: cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 300-600 meshes of pearl oyster powder and 300-500 meshes of Muyu stone powder;
step two: the cyclocarya paliurus leaves, the mulberry leaves and the kudzuvine roots are cleaned, dried, crushed, sieved and classified respectively to obtain 120-200 meshes of cyclocarya paliurus leaf powder, 100-150 meshes of mulberry leaf powder and 150-180 meshes of kudzuvine root powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
The invention has the beneficial effects that: the pearl shell powder and the muyu stone powder are mixed with water, and can release a large amount of negative hydrogen ions after being heated at high temperature, the negative hydrogen ions can enhance the life kinetic energy ATP and improve the metabolic capability of a body, the negative hydrogen ions promote the operation of cell enzymes by providing electrons, and the cyclocarya paliurus leaves are quickly decomposed, so that the cells can absorb the effective components of the cyclocarya paliurus leaves, the health care and treatment effects of the cyclocarya paliurus leaves are quickly realized, the blood sugar is remarkably reduced, and the pearl shell powder and the muyu stone powder are suitable for patients with hyperglycemia; secondly, the oat flour has the effects of improving and shielding bitter taste, the palatability of the regenerated water is improved, meanwhile, the oat flour can promote the digestion and absorption of carbohydrates in a human body, the hyperlipidemia is effectively prevented, xylitol can provide sweet taste for the regenerated water so as to improve the drinking taste, and the xylitol is a commonly used sugar substitute and cannot be metabolized in the human body to form glucose, so that the blood sugar cannot be increased.
Drawings
FIG. 1 is a table showing the statistics of blood glucose measurements of the rats in each group in Experimental example 1 of the present invention.
FIG. 2 is a table showing the statistics of blood glucose measurement results of each of the subjects with hyperglycemia in Experimental example 2 of the present invention.
Detailed Description
The technical solution in the embodiments of the present invention will be described below with reference to the accompanying drawings.
Example 1
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 10 parts of nacre shell powder, 10 parts of muyu stone powder, 15 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 600-mesh pearl oyster powder and 500-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain cyclocarya paliurus leaf powder of 200 meshes, mulberry leaf powder of 150 meshes and radix puerariae powder of 180 meshes;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 2
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 70 parts of nacre powder, 50 parts of muyu stone powder, 50 parts of cyclocarya paliurus leaf powder, 40 parts of mulberry leaf powder, 40 parts of radix puerariae powder, 60 parts of oat powder, 40 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 300-mesh pearl oyster powder and 300-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain 120-mesh cyclocarya paliurus leaf powder, 100-mesh folium mori powder and 150-mesh radix puerariae powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 3
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 65 parts of pearl shell powder, 45 parts of muyu stone powder, 35 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 50 parts of oat powder, 40 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 400-mesh pearl oyster powder and 400-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain 150-mesh cyclocarya paliurus leaf powder, 120-mesh folium mori powder and 160-mesh radix puerariae powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 4
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 65 parts of pearl shell powder, 48 parts of muyu stone powder, 40 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 32 parts of radix puerariae powder, 40 parts of oat powder, 30 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 500-mesh pearl oyster powder and 400-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain 130-mesh cyclocarya paliurus leaf powder, 120-mesh folium mori powder and 180-mesh radix puerariae powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 5
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 60 parts of nacre powder, 40 parts of muyu stone powder, 30 parts of cyclocarya paliurus leaf powder, 20 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 600-mesh pearl oyster powder and 300-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain 180-mesh cyclocarya paliurus leaf powder, 140-mesh folium mori powder and 160-mesh radix puerariae powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 6
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 40 parts of nacre powder, 25 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 22 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 500-mesh pearl oyster powder and 300-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain cyclocarya paliurus leaf powder of 200 meshes, mulberry leaf powder of 130 meshes and radix puerariae powder of 150 meshes;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 7
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 45 parts of nacre powder, 32 parts of muyu stone powder, 28 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 600-mesh pearl oyster powder and 400-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain 190-mesh cyclocarya paliurus leaf powder, 150-mesh folium mori powder and 150-mesh radix puerariae powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Example 8
The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 30 parts of nacre powder, 22 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 55 parts of oat powder, 25 parts of xylitol and the balance of water.
A preparation method of cyclocarya paliurus regenerated water with negative hydrogen ions by electrolysis comprises the following steps:
the method comprises the following steps: firstly, cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 400-mesh pearl oyster powder and 500-mesh Muyu stone powder;
step two: respectively cleaning cyclocarya paliurus leaves, folium mori and radix puerariae, drying, crushing, sieving and grading to obtain cyclocarya paliurus leaf powder of 200 meshes, folium mori powder of 120 meshes and radix puerariae powder of 160 meshes;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
Experimental example 1: pharmacological experiment of animals
Preparation of the experiment: selecting 200 healthy and normal male rats with the mass of 150 g-200 g, adaptively feeding the rats for 2 weeks, randomly dividing the rats into 190 hyperglycemia making modules and 10 blank control groups, feeding the hyperglycemia making modules with hyperglycemia making feed, assisting in injecting small-dose alloxan, feeding common feed with the blank control groups, continuously feeding for 4 weeks, fasting for 4 hours on the next day for the hyperglycemia making modules and the blank control groups, firstly determining fasting blood glucose value, then feeding distilled water with the same volume, orally infusing glucose with the same dose after 15 minutes, determining blood glucose value after 2 hours for the glucose, comparing with the blank control groups according to the above operation, determining whether the blood glucose value of the hyperglycemia making modules is obviously increased after 2 hours, if the obvious increase is successful in molding of the hyperglycemia rats, otherwise, failing to successfully molding, and obtaining a result that the 190 rats successfully mold 100 in the molding process.
And (3) blood sugar reduction experiment: the 100 successfully molded rats were randomly divided into: the method comprises the following steps of 1 model control group, 1 experiment control group and 8 tested groups, wherein each group comprises 10 blank control groups and model control groups, distilled water is used for filling the stomach of the blank control group and the model control groups, the existing cyclocarya paliurus leaf tea is filled in the experiment control groups, the cyclocarya paliurus leaf tea adopted in the experiment control groups is a cyclocarya paliurus leaf tea bag brewed by hot water, the rest 8 tested groups are respectively filled with the regenerated water prepared in corresponding examples 1-8 for 15 days, the next day after the blood glucose reduction experiment is finished, all groups are fasted for 4 hours, fasting blood glucose value is measured firstly, then the same volume of distilled water is given, glucose with the same dose is orally filled after 15 minutes, the blood glucose value of each group after 2 hours is measured, and the blood glucose value of each group is recorded and counted.
The experimental results are as follows: referring to fig. 1, compared with the blank control group, the model control group and the experimental control group, the test group of each example has a significant effect on fasting blood glucose and blood glucose 2 hours after glucose administration, and the blood glucose level is significantly reduced.
Experimental example 2 crowd sampling experiment
The reclaimed water prepared in example 1 was taken, 10 hyperglycemia groups were randomly selected, and effect verification was performed in the following manner: the method comprises the steps that a hyperglycemic subject drinks the regenerated water once a day, the hyperglycemic subject drinks the regenerated water before meals (about 1 h) or after meals, the quantity of the regenerated water drunk each time is about 200-250 ml, the trial time is 15 days, before the regenerated water is tried, the fasting blood glucose level and the postprandial (2 h) blood glucose level of the hyperglycemic subject are measured and recorded, after the regenerated water is tried, the fasting blood glucose level and the postprandial (2 h) blood glucose level of the hyperglycemic subject are tracked, measured and recorded every day, comparison is conducted before and after experiments, the blood glucose measurement result refers to a graph 2, and the fasting blood glucose level or the postprandial (2 h) blood glucose level are obviously reduced.
Claims (10)
1. The electrolytic negative hydrogen ion cyclocarya paliurus regenerated water is characterized in that: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 10-70 parts of pearl shell powder, 10-50 parts of Muyu stone powder, 15-50 parts of cyclocarya paliurus leaf powder, 25-40 parts of mulberry leaf powder, 20-40 parts of kudzu root powder, 45-60 parts of oat powder, 25-40 parts of xylitol and the balance of water.
2. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 10 parts of nacre shell powder, 10 parts of muyu stone powder, 15 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
3. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 70 parts of nacre powder, 50 parts of muyu stone powder, 50 parts of cyclocarya paliurus leaf powder, 40 parts of mulberry leaf powder, 40 parts of radix puerariae powder, 60 parts of oat powder, 40 parts of xylitol and the balance of water.
4. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 65 parts of pearl shell powder, 45 parts of muyu stone powder, 35 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 50 parts of oat powder, 40 parts of xylitol and the balance of water.
5. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 65 parts of pearl shell powder, 48 parts of muyu stone powder, 40 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 32 parts of radix puerariae powder, 40 parts of oat powder, 30 parts of xylitol and the balance of water.
6. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 60 parts of nacre powder, 40 parts of muyu stone powder, 30 parts of cyclocarya paliurus leaf powder, 20 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
7. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 40 parts of nacre powder, 25 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 22 parts of radix puerariae powder, 45 parts of oat powder, 25 parts of xylitol and the balance of water.
8. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 45 parts of nacre powder, 32 parts of muyu stone powder, 28 parts of cyclocarya paliurus leaf powder, 30 parts of mulberry leaf powder, 25 parts of radix puerariae powder, 45 parts of oat powder, 30 parts of xylitol and the balance of water.
9. The electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claim 1, wherein: the electrolytic negative hydrogen ion cyclocarya paliurus regenerated water comprises the following raw materials in parts by weight: 30 parts of nacre powder, 22 parts of muyu stone powder, 18 parts of cyclocarya paliurus leaf powder, 25 parts of mulberry leaf powder, 20 parts of radix puerariae powder, 55 parts of oat powder, 25 parts of xylitol and the balance of water.
10. A preparation method of electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water based on the electrolyzed negative hydrogen ion cyclocarya paliurus reclaimed water of claims 1-9 is characterized in that: the method comprises the following steps:
the method comprises the following steps: cleaning and drying the pearl oyster and the Muyu stone, and then crushing and grinding the dried pearl oyster and Muyu stone by using a ball mill to obtain 300-600 meshes of pearl oyster powder and 300-500 meshes of Muyu stone powder;
step two: the cyclocarya paliurus leaves, the mulberry leaves and the kudzuvine roots are cleaned, dried, crushed, sieved and classified respectively to obtain 120-200 meshes of cyclocarya paliurus leaf powder, 100-150 meshes of mulberry leaf powder and 150-180 meshes of kudzuvine root powder;
step three: according to the weight part distribution of the raw materials, uniformly mixing pearl oyster powder, Muyu stone powder, cyclocarya paliurus leaf powder, mulberry leaf powder, radix puerariae powder, oat powder and xylitol, placing the mixture in a sterilized container, adding water into the container, heating the mixture until the mixture is slightly boiled, keeping the slightly boiled for 0.5h, and slowly stirring the mixture in the heating process;
step four: and after the heating and dissolving are finished, sealing the container, and standing to a normal temperature state to obtain a finished product.
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| JP2007217351A (en) * | 2006-02-17 | 2007-08-30 | Amimoto Giken Kk | Anti-oxidizing composition and food/medicine/cosmetic containing the same |
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| JP2007217351A (en) * | 2006-02-17 | 2007-08-30 | Amimoto Giken Kk | Anti-oxidizing composition and food/medicine/cosmetic containing the same |
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