JP2014230506A - Organism growth material, and method and apparatus of producing organism growth material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide organism growth material capable of promoting the growth of animals and plants with secure and safety, and a method and an apparatus of producing the organism growth material.SOLUTION: Organism growth material comprises fine bubbles having fine bubble diameter in raw water with the high contents of dissolved oxygen and dissolved hydrogen. For example, the organism growth material is produced by a producing apparatus 1 comprising: a water storage tank 2 for storing the raw water; an electrolyzer 3 for supplying power to an anode 3a and a cathode 3b which are separated and opposed to each other, and electrolyzing the raw water in the water storage tank 2; and a fine bubbles-generating device 4 for generating the fine bubbles having fine bubble diameter, such as nanobubbles, in the raw water in the water storage tank 2. The fine bubbles-generating device 4 is actuated while actuating electrolyzer 3.

Description

  The present invention relates to a biological growth material that promotes the growth of animals and plants, a method for manufacturing the biological growth material, and an apparatus for manufacturing the biological growth material.

  Currently, agrochemicals and chemical fertilizers are often used to promote the growth of living animals and plants.

  In recent years, animal and plant mineral deficiencies have progressed, and it has also adversely affected human health. As a cause of the shortage of minerals in such animals and plants, heavy use of agricultural chemicals and chemical fertilizers is suspected.

  This invention is made | formed in view of the above, The objective is to provide the biological growth material which can accelerate | stimulate growth of animals and plants safely and safely, the manufacturing method of the biological growth material, and its manufacturing apparatus.

According to a first aspect of the present invention, there is provided a biological growth material in which the amount of dissolved oxygen and the amount of dissolved hydrogen in raw water are increased to contain fine bubbles having a fine bubble diameter in the raw water. The “raw water” includes tap water, well water, spring water, river water, pond water, and other natural water or distilled water.
Moreover, as described in claim 2, the raw water is provided by the biological growth material according to claim 1, wherein the raw water is filtered through a filter medium having nano-sized fine pores.
Moreover, the biological growth material of Claim 1 or 2 which added the 1 type or multiple types of mineral component as described in Claim 3 is provided.
Moreover, as described in Claim 4, the biological growth material of any one of Claims 1-3 which added the 1 type or multiple types of liquid fertilizer is provided.

Moreover, as described in Claim 5, it is a manufacturing method of the biological growth material of any one of Claims 1-4,
Provided is a method for producing a biological growth material in which fine bubbles having a fine bubble diameter are generated in raw water while electrolyzing the raw water by energizing an anode and a cathode arranged opposite to each other at an interval.
Moreover, as described in claim 6, the method for producing a biological growth material according to claim 5, wherein the raw water is previously filtered through a filter medium having nano-sized fine pores.
The biological growth material according to claim 5 or 6, wherein the electrolysis and generation of fine bubbles are performed while maintaining the temperature of the raw water higher than 0 ° C and lower than 30 ° C. A manufacturing method is provided.

Moreover, as described in Claim 8, it is a manufacturing apparatus of the biological growth material in any one of Claims 1-4,
A water storage tank for raw water,
An electrolyzer that electrolyzes raw water in the water storage tank by energizing an anode and a cathode arranged opposite to each other at an interval;
A fine bubble generating device for generating fine bubbles with a fine bubble diameter in the raw water in the water storage tank,
Provided is a biological growth material manufacturing apparatus in which the microbubble generator is operated while the electrolysis apparatus is operated.
Moreover, as described in claim 9, the biological growth according to claim 8, wherein a filtration device including a filter medium having nano-sized fine holes is provided in the middle of a water conveyance path for pumping raw water to the water storage tank. A material manufacturing apparatus is provided.
In addition, as described in claim 10, the apparatus for producing a biological material according to claim 9, further comprising a water temperature adjusting device for maintaining the temperature of the raw water higher than 0 ° C and lower than 30 ° C.

The biological growth material according to claim 1 is promoted to grow when fed to a plant and cultivated, and becomes energetic and promoted when fed to a fish mixed with bait. The reason is not clear, but is presumed as follows.
That is, the biological growth material contains hydrogen, oxygen, and fine bubbles, and by the fine bubbles floating in the water for a long time, hydrogen and oxygen that are naturally emitted to the atmosphere in a short time stay in the water for a long time, Furthermore, it is considered that absorption is drastically increased by supplying hydrogen and oxygen together with fine bubbles.
Further, by filtering raw water with a filter medium having nano-sized fine pores as in claims 2, 6 and 8, impurities are removed and purified, and of course, bubbles originally contained in the raw water Since it refines | miniaturizes by passing through a micropore, the fine bubble in raw | natural water can be made richer, and the negative potential value of an oxidation-reduction potential can be enlarged as a whole.
Moreover, when 1 type or multiple types of mineral components are added like Claim 3, those mineral components are absorbed efficiently.
Moreover, the biological growth material of this invention can be manufactured with the manufacturing method of Claim 5, 6, or the manufacturing apparatus of Claim 8, 9.
In addition, since the fine bubbles are not easily generated by freezing when the water temperature is 0 ° or less, the air in the bubbles is warmed and easily escapes into the atmosphere when the water temperature is 30 ° C. or more. As described above, the raw material can be efficiently produced by keeping the temperature of the raw water higher than 0 ° C. and lower than 30 ° C. In addition, it is best to set it to 15 to 29 degreeC especially in the range of the water temperature.

It is a perspective view which shows the outline of the manufacturing apparatus of a biological growth material. It is a perspective view which shows an anode and a cathode. It is a graph which shows the result of a cultivation demonstration test. It is sectional drawing of a filtration apparatus.

[Embodiment 1]
As shown in FIG. 1, the biological growth material manufacturing apparatus 1 according to the first embodiment is roughly composed of a water storage tank 2 into which raw water such as tap water and well water is placed, an electrolysis apparatus 3, and a fine bubble generation apparatus 4. It is formed.
The material and shape of the water storage tank 2 are not particularly limited as long as a predetermined amount of water can be stored.
The electrolyzer 3 is formed of an anode 3a and a cathode 3b that are arranged to face each other at a distance, and a DC power source 3c that is connected to the anode 3a and the cathode 3b. The anode 3a and the cathode 3b are formed by, for example, making a plurality of holes 3d, 3d,... In a rectangular stainless steel plate having a side of about 300 mm, and providing an interval of about 5 to 10 mm between the electrodes 3a, 3b. Are disposed opposite to each other in the water storage tank 2.
The fine bubble generating device 4 supplies dry air from the compressor 4a to the discharge member 4b, and forms fine fine bubbles (generally “nano bubbles” or “nano bubble” or “ Microbubbles can be generated, and commercially available nanobubble generators and microbubble generators (for example, various devices are sold by NAC Co., Ltd.) can be used as they are. The fine bubbles are preferably nanobubbles having a size of about 50 nm to 200 nm. According to the verification test data described in the product guide of the manufacturer, the fine bubbles are still present in the water even after being left for 3 days.

A method for producing a biological growth material using the production apparatus 1 according to the first embodiment configured as described above will be described. First, a predetermined amount (for example, about 100 liters) of raw tap water is put into a water storage tank 2 as raw water. .
Next, the microbubble generator 4 is operated. As a result, minute fine bubbles are generated from the discharge member 4b of the fine bubble generator 4, and the fine bubbles are dispersed in water. The fine bubbles dispersed in water pass through the holes 3d, 3d... Of the anode 3a and the cathode 3b to reach every corner of the electrodes 3a, 3b.
In addition, microbubbles are hardly generated by freezing when the water temperature is 0 ° or lower, while the air in the bubbles is easily heated when the water temperature is 30 ° C or higher. Thus, the water tank 2 may be provided with a water temperature adjusting device 10 having a cooling function so that the temperature of the raw water is higher than 0 ° C. and lower than 30 ° C., more preferably 15 ° C. to 29 ° C.

A voltage of about 17V to 24V (24V in the embodiment) is applied to the anode 3a and the cathode 3b of the electrolyzer 3 almost simultaneously with the generation of the fine bubbles. The current at this time is 0.5 A to 1.0 A. As a result, the raw water is electrolyzed by the electrolyzer 3, and oxygen is released from the anode 3a and hydrogen is released from the cathode 3b as is well known.
As will be described later, when liquid fertilizer and mineral components are added to the raw water, the components may be precipitated by electrolysis. Therefore, the electrolyzer 3 is operated intermittently at intervals of 1 second, for example. Adjust it.
By continuing the above state for 30 minutes or more, an animal or plant growing material obtained by electrolyzing raw water containing fine bubbles, that is, a biological growing material can be obtained.

  The redox potential of the biological growth material of Embodiment 1 produced using tap water (redox potential = + 440 mV) in Yodogawa, Nakatsugawa City, Gifu Prefecture, as raw water was −58 mV.

[Verification test]
In order to verify the effect of the biological growth material manufactured as described above, a cultivation verification test of broccoli was conducted.
In the cultivation verification test, broccoli seeds were sown in a 128-well tray, and the biological growth material of the present invention was sprayed instead of water immediately after sowing, and then, on the 7th and 14th days, instead of water, Sprinkle biological growth material, and then check the growth of the 19th day. For comparison, the same cultivation demonstration test was performed with water alone, and the growth status of broccoli in that case was examined.
The result is shown in the graph of FIG. In addition, the graph of FIG. 3 is displayed by the index | exponent when the growth condition only of normal tap water is set to 100. FIG.

As is apparent from the graph of FIG. 3, the growth status of broccoli sprayed with the biological growth material of the present invention is slightly lower than the growth status of tap water only in the root length and root weight of the underground part, The weight, stem diameter, and SPAD value (quantified chlorophyll value with a specific measuring instrument) were clearly superior to the growth of tap water alone.
At the same time, liquid fertilizer (specifically, nitrogen, phosphorus, potassium) was added to the biological growth material of the present invention, and the same cultivation demonstration test was performed. The results are shown in the graph of FIG. According to this combination, the growth situation of the whole underground part and the above-ground part exceeded the growth situation in the case of only tap water. From this, the biological growth material of the present invention may of course be used alone, but it has been confirmed that when used in combination with liquid fertilizer, a further excellent effect is exhibited.

By the way, when cultivating a plant, there is a conventional method for promoting growth by mixing granular charcoal with soil, but in order to combine the biological growth material of the present invention with such a cultivation method, mineral (seaweed powder), ocher are combined with charcoal. A mixture of powder, iron powder, obsidian powder, SiO ₂ , Co, Mn, Cu, and Zn mixed with soil and seeded, and the liquid fertilizer added to the biological growth material of the present invention As a result, the root weight was 277%, the ground weight was 166%, and the SPAD value was increased by about 4 points as compared with the cultivation using only tap water.
Moreover, when the mineral content of the part excluding the foliage was analyzed, it was said that sodium = 25.5 mg, phosphorus = 128 mg, iron = 1.38 mg, calcium = 41.7 mg, potassium = 472 mg, magnesium = 29.1 mg in 100 g. It was a result. These numbers are sufficient to support the efficient absorption of minerals.

Next, in order to demonstrate the growth effect of the biological growth material of the present invention, a goldfish was raised.
Specifically, a goldfish having a body length of about 1 cm was placed in a separate aquarium, and one goldfish was administered with a bait soaked with the biological growth material of the present invention.
As a result, the body length of the goldfish fed with the food soaked with the biological growth material of the present invention grew almost twice as much as that of the other goldfish after breeding for about 8 months.
In addition, it is also possible to reduce the smell of excrement by mixing the biological growth material of the present invention with food and giving it to animals such as dogs and cats.

[Embodiment 2]
As shown in FIG. 4, the biological growth material manufacturing apparatus 1 according to the second embodiment is a filtration apparatus including filter media 5 a, 5 b, and 5 c having fine holes in the middle of a water conveyance path for pumping raw water to the water storage tank 2. 6 is interposed.

  As shown in FIG. 4, the filtration device 6 is connected to a plurality of water guide pipes 7 a to 7 d constituting a water guide path and the start end of the first water guide pipe 7 a to supply tap water or well water as raw water. A plurality of (three in the second embodiment) filtration containers 9a interposed between the water pumps 7a and 7b, between the water pipes 7b and 7c, and between the water pipes 7c and 7d, respectively. 9b, 9c and filter media 5a, 5b, 5c provided inside the filtration containers 9a, 9b, 9c.

As described above, the first water conduit 7a is connected to the pump 8 at the start end, and is connected to the top of the filter medium 5a through the upper end of the first filtration container 9a.
The second water conduit 7b has a start end connected to the bottom of the first filtration container 9a and a terminal end penetrating through the bottom of the second filtration container 9b to the lower part of the filter medium 5b.
The third water conduit 7c has a start end connected to the upper part of the second filtration container 9b and a terminal end passing through the upper part of the third filtration container 9c and connected to the upper part of the filter medium 5c.
The fourth water conduit 7 d has a start end connected to the bottom of the third filtration container 9 c and a terminal end opened to the water storage tank 2.

  The filter media 5a, 5b and 5c of the filtration device 6 are set so that one end is closed by rounding a chemical fiber or a non-woven fabric into a cylindrical shape, and the fine pores become smaller as the one disposed downstream of the water conduit. In addition, at least the fine pores of the filter medium 5c located on the most downstream side are nano-sized (for example, 10 nm to 100 nm).

Since the filtration device 6 of the second embodiment is configured as described above, when the pump 8 is operated, raw water such as tap water or well water is pumped from the water conduit 7a to the filter medium 5a, and the pressure of the filter medium 5a is increased. It passes through the fine holes and fills the filtration container 9a. Next, the raw water filled in the filtration container 9a is pumped to the filter medium 5b of the filter container 9b through the water conduit 7b, and passes through the fine holes of the filter medium 5b with the pressure to fill the filter container 9b. Further, the raw water filled in the filtration container 9b is pumped to the filter medium 5c of the filter container 9c through the water conduit 7c, and is discharged to the filter container 9c through the fine holes of the filter medium 5c by the pressure, and from there to the water conduit 7d. It is poured into the water storage tank 2 through.
In addition, since it is the same as that of Embodiment 1, it abbreviate | omits description after that.

  In this way, the raw water is filtered step by step through the filter media 5a and 5b and finally filtered through the filter media 5c having nano-sized fine pores, so that impurities are removed and the water is purified. Since the bubbles contained in the raw water are refined by passing through the nano-sized fine pores, the fine bubbles in the raw water can be enriched.

  An embodiment in which the redox potential of the biological growth material of Embodiment 2 manufactured using tap water (Oxidation reduction potential = + 440 mV) in Yodogawa, Nakatsugawa City, Gifu Prefecture is −152 mV and the oxidation reduction potential is −58 mV It was confirmed that the water quality was more suitable for the growth of animals or plants than the one of the biological growth materials.

When a plurality of people drank the biological growth material produced by the production apparatus 1 of Embodiment 2, most people felt that physical strength was restored on the next day of drinking, and nighttime penile erection had been interrupted for a long time due to aging There was also a resurgence of the phenomenon (the so-called “morning”). The reason is not clear, but is presumed as follows.
That is, at present, oxygen water having a high oxygen concentration in water and hydrogen water having a high hydrogen concentration are commercially available.
In general, oxygen water can be used to improve diabetes, improve exercise capacity, increase hemoglobin, increase antihypertensive activity, lower cholesterol, antioxidant activity, relieve back pain, and remove active oxygen. It is said that there are effects such as odor mitigation, and research is ongoing.
In addition, it is said that hydrogen water has effects such as an action of removing active oxygen and an action of preventing aging including a decrease in energy by drinking it. Research on this hydrogen water is also being carried out at universities, etc., and research papers have been published.
Thus, the biological growth material of the present invention contains hydrogen, oxygen, and fine bubbles, and the hydrogen and oxygen that are naturally released to the atmosphere in a short time due to the fine bubbles floating in the water for a long time. It is thought that absorption increases by taking this hydrogen and oxygen into the body together with fine bubbles.
Therefore, by drinking the biological growth material of the present invention, diabetes improvement action, exercise capacity improvement action, hemoglobin increase action, antihypertensive action, cholesterol lowering action, antioxidant action, low back pain relief action, active oxygen removal action It can be expected to promote health and restore physical strength, such as odor mitigation and aging prevention, including reduced energy.
Therefore, the “living body” of the biological growth material of the present invention includes humans.
In addition, when using a biological growth material for the drinkable use as mentioned above, in addition to ingesting directly as drinking water, you may make it add to food, or may be ingested by adding to alcoholic beverages and juices.

As mentioned above, although this invention was demonstrated about Embodiment 1, 2, of course, this invention is not limited to the said embodiment. For example, in the embodiment, the raw water is electrolyzed to increase the amount of dissolved oxygen and the amount of dissolved hydrogen so that the raw water contains fine bubbles, but the so-called oxygen in which the amount of dissolved oxygen in the raw water is increased by existing methods. Water and so-called hydrogen water in which the amount of dissolved hydrogen in the raw water is increased by an existing method may be mixed so that fine bubbles are contained in the raw water.
In the embodiment, tap water is used as the raw water, but natural water such as spring water, river water, pond water, or distilled water may be used as well as well water. Furthermore, one or more mineral components such as zinc, potassium, calcium, nitrogen, silicon, sulfur, chlorine, aluminum, chromium, selenium, iron, copper, sodium, magnesium, manganese, molybdenum, iodine, and phosphorus are added to the raw water. You may do it. Furthermore, alkaline ionized water or trehalose may be added.
In the second embodiment, the filtering media 5a, 5b and 5c are connected as a filtration device 6 in a daisy chain so as to make the fine pores finer step by step. However, the filtering media 5c having nano-sized fine pores are used alone. You may make it do.

DESCRIPTION OF SYMBOLS 1 ... Manufacturing apparatus 2 ... Water storage tank 3 ... Electrolysis apparatus 3a ... Anode 3b ... Cathode 4 ... Fine bubble generator 5 ... Filter medium 6 ... Filtration apparatus 7a-7d ... Water guide pipe (water guide path)
8 ... Pump 10 ... Water temperature control device

Claims (10)

  A biological growth material characterized in that the amount of dissolved oxygen and dissolved hydrogen in raw water is increased so that the raw water contains fine bubbles having a fine bubble diameter.   The biological raw material according to claim 1, wherein the raw water is filtered through a filter medium having nano-sized fine pores.   The biological growth material according to claim 1 or 2, wherein one or more mineral components are added.   The biological growth material according to any one of claims 1 to 3, wherein one or more types of liquid fertilizer are added. It is the manufacturing method of the biological growth material of any one of Claims 1-4,
A method for producing a bio-growing material, characterized in that an anode and a cathode arranged opposite to each other at an interval are energized to electrolyze raw water to generate fine bubbles having a fine bubble diameter in the raw water.   6. The method for producing a biological growth material according to claim 5, wherein the raw water is filtered in advance with a filter medium having nano-sized fine pores.   The method for producing a biological growth material according to claim 5 or 6, wherein the electrolysis and generation of fine bubbles are performed while keeping the temperature of the raw water higher than 0 ° C and lower than 30 ° C. A biological growth material manufacturing apparatus according to any one of claims 1 to 4,
A water storage tank for raw water,
An electrolyzer that electrolyzes raw water in the water storage tank by energizing an anode and a cathode arranged opposite to each other at an interval;
A fine bubble generating device for generating fine bubbles with a fine bubble diameter in the raw water in the water storage tank,
An apparatus for producing a biological growth material, wherein the microbubble generator is operated while operating the electrolyzer.   The biological growth material manufacturing apparatus according to claim 8, wherein a filtering device including a filtering material having nano-sized fine holes is provided in the middle of a water conveyance path for pumping raw water to the water storage tank.   The biological growth material manufacturing apparatus according to claim 9, further comprising a water temperature adjusting device for keeping the temperature of the raw water higher than 0 ° C. and lower than 30 ° C.

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