JP4000054B2 - Aquatic animal breeding equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is intended to cultivate aquatic organisms in a breeding water area by flowing the breeding water into a breeding water area in a breeding facility such as a fish farming facility, a live fish breeding facility, a goldfish breeding facility, or an aquarium facility such as an aquarium. The present invention relates to an aquatic organism rearing device.
[0002]
[Prior art]
The principle of the circulating filtration pond in breeding facilities such as fish farming facilities, live fish breeding facilities, ornamental aquatic life facilities, goldfish breeding facilities, etc. The dissolved organic matter is oxidatively decomposed by aerobic bacteria through the tank and then injected again into the breeding pond to raise the fish.
[0003]
In the circulation filtration pond, water purification and oxygen supplementation by phytoplankton in the pond water cannot be expected. Therefore, most of the organic matter is treated in a filtration tank or a precipitation tank, and oxygen is replenished by mechanical force or aeration utilizing a head.
[0004]
Therefore, in the circulating filtration pond, ammonia in water generated during the mineralization process of nitrogen-containing organic matter contained in the dung and residual food of domesticated fish, and excreted directly from the salmon and kidney (urine), Is oxidized and decomposed into nitrite and then nitrate by nitrifying bacteria grown on the surface of the filter medium. Molecular oxygen is required for nitrifying bacteria to grow and develop their activity.
[0005]
Therefore, when passing through the filtration tank, under conditions where the dissolved oxygen in the filtered water is scarce, the growth and activity of nitrifying bacteria is inhibited and the oxidation reaction of ammonia nitrogen does not proceed, and as a result it accumulates in water as it is. Become. In addition, the organic matter decomposition activity of the bacterial group in the filter bed is almost constant at any depth regardless of the depth of the filter bed, but the activity of the nitrification reaction is the highest in the surface layer of the filter bed.
[0006]
From the above, it is important to increase the amount of dissolved oxygen by aeration of filtered water (bred water) well before passing through the filter bed. It is considered effective to increase the surface area by reducing the depth.
[0007]
In addition, germs tend to propagate in the ornamental water tank, which is a closed water area. Miscellaneous bacteria become a cause of fish diseases and must be removed to maintain fish health and ornamental effects.
[0008]
On the other hand, it is known that magnetic treatment can be used for improvement in a wide range of fields such as liquid reforming. The reason for this is that a so-called Lorentz force is generated by applying a magnetic field at a right angle in the flow of the liquid, and this Lorentz force breaks down the liquid molecules and acts on the charged particles to separate the liquid molecules from the charged particles. Therefore, the structure of the liquid such as the arrangement and distribution of various atoms in the liquid changes and the properties of the liquid change, increasing the density, surface tension, viscosity, dielectric constant, dissolution rate of the electrolyte, Alternatively, the liquid is activated by producing various effects such as an increase in electrical conductivity and gas solubility.
[0009]
And magnetically treated water or water-based liquid or magnetic water, which is an organic liquid containing these liquids, is water, red water for piping, red rust countermeasures and scales, sludge control, agriculture, horticulture It is known that it can be used in a wide range of fields, such as maintaining the freshness of food in food production, promoting the cultivation of seafood, and improving fuel efficiency by reforming fuel oil.
[0010]
A conventional magnetic processing apparatus that forms and applies a simple magnetic field to a flow of a liquid to be processed including charged particles such as various positive and negative ions and charged fine particles is disclosed in FIGS. 9 and 10. Technology has been developed.
[0011]
This disclosed technique includes first and second divided bodies 50A and 50B, and the first divided body 50A includes a synthetic resin case 51. On the surface portions of the case 51 facing each other, A semicircular groove 52 is formed, and a permanent magnet 53 is fixed to the bottom of the case 51.
[0012]
The second divided body 50 </ b> B includes a synthetic resin case 54, and semicircular grooves 55 are formed in mutually facing surface portions of the case 54, and the bottom of the case 54 is permanently attached. A magnet 56 is fixed.
[0013]
Then, the first divided body 50A and the second divided body 50B are sandwiched between the metal pipe bodies 60 through which water as a treatment target flows (the grooves 52 of the first and second divided bodies 50A and 5OB). , 55 is inserted into a circular hole formed by the tube body 55).
[0014]
In addition, the present applicant previously proposed a device for treating harmful substances of exhaust gas that forms and applies a magnetic field perpendicular to the flow of liquid fuel containing molecules of mineral components in Japanese Patent Application No. 10-149225, Further, in Japanese Patent Application No. 2000-6684, harmful substances such as carbon monoxide (CO), hydrocarbons (HC), nitrogen oxides (NOx), and black smoke in exhaust gas discharged from automobiles and the like are reduced. A device for treating harmful substances in exhaust gas is proposed. In Japanese Patent Application No. 2001-183394, carbon monoxide (CO), hydrocarbon (HC), sulfur oxide (SOx) and We proposed an exhaust emission control device by activating liquid fuel that reduces harmful substances such as nitrogen oxides (NOx) and black smoke.
[0015]
[Problems to be solved by the invention]
The above-described conventional magnetic processing apparatus has a state in which a metal pipe body 60 for flowing water as a processing target is sandwiched (in the circular holes formed by the grooves 52 and 55 of the first and second divided bodies 50A and 5OB). The tube body 60 is inserted) and is used by being connected to each other, and the magnetic processing apparatus itself does not have a connection tube. Further, there is no magnetic processing holding case, and no magnetic induction closed circuit is formed, and the permanent magnets 53 and 58 are merely opposed to each other.
[0016]
In addition, the above-described conventional latter magnetic processing apparatus uses a connecting pipe for flowing the liquid fuel in order to expose the flow of the liquid fuel to a magnetic field. As a result of diligent research, the present applicant uses two inner and outer tubes made of non-ferrous metal made of a non-magnetic material with a high ionization tendency or a material with a low ionization tendency. As a result, liquid fuel reforming was found and liquid molecules were further subdivided.
[0017]
Then, the liquid molecule subdivision in the latter latter magnetic processing apparatus is made into an aquatic organism breeding apparatus in which breeding water is made to flow into the breeding water area of the breeding facility and the aquatic organisms in this breeding water area are bred. It has been found that the application can make the breeding facility an environment suitable for breeding aquatic organisms.
[0018]
An object of the present invention is to provide an aquatic organism breeding apparatus that can subdivide a breeding water cluster that flows at a predetermined flow rate by a magnetic force to make the breeding water area suitable for the breeding of aquatic organisms. There is.
[0019]
[Means for Solving the Problems]
In order to achieve the above object, the aquatic organism breeding apparatus according to the present invention causes the breeding water to flow into the breeding water area of the breeding facility by driving the water pump so as to breed the aquatic life in the breeding water area. An aquatic organism breeding device, comprising a magnetic treatment device for subdividing a breeding water cluster flowing at a predetermined flow velocity by a magnetic force in a flow channel of the breeding water, The environment is suitable for breeding.
[0020]
With such a configuration, in the aquatic organism breeding apparatus, by applying magnetic force to the breeding water by the magnetic processing device, the breeding water cluster that flows at this predetermined flow rate is subdivided by the magnetic force, and the phytoplankton in the breeding water area Can promote the purification of water quality, promote the growth of nitrate-forming bacteria, develop its activity and promote the oxidation of ammonia nitrogen, and suppress the propagation of miscellaneous bacteria by ionization of breeding water. It is possible to create an environment suitable for breeding underwater organisms in the breeding water area.
[0021]
In addition, the aquatic organism rearing apparatus according to the present invention is the above-described aquatic organism rearing apparatus according to the present invention, wherein the magnetic processing device holds one anisotropic magnetic body of a square cube and one magnet made of a magnetic material. One magnetic processing body housed in the case and the other anisotropic magnetic body of the square cube are housed in the other magnet holding case made of a magnetic material, and the one magnet holding case is placed in the other magnet holding case. A magnetic induction bipolar closed circuit at the seam, and the other magnetic treatment body connected to one magnetic treatment body, and the breeding water The non-magnetic connecting pipe in which the fluid flows is sandwiched and magnetically attracted to each other at the joint, and one and the other magnet holding case are made part of the magnetic induction double-pole closed circuit, The other anisotropic magnetic body It is intended to apply the magnetic field to breeding water to form a right angle field to the flow of rearing water in between the magnetic poles.
[0022]
With this configuration, by supplying a flow rate of 1.2 to 1.6 m per second to the breeding water, for example, a metallic element (calcium) contained in a small amount in the breeding water in a conduit (connection pipe) through which the breeding water flows. Static electricity (for example, 0.06 mA at 1.2 m / s and 0.08 mA at 1.6 m / s) is generated in a charged body (charged particles) such as sodium, magnesium, potassium, aluminum, iron, titanium), In the connecting pipe, a potential difference is generated between the outer tubular body and the inner tubular body to make the ionic coupling unstable, and between the magnetic poles of one anisotropic magnetic body and the other anisotropic magnetic body, For example, an electromotive force can be generated by applying magnetism of a magnetic field of 4000 to 8000 Gauss to the connection tube, and the charged body can be ionized by reacting with + ions of the material of the connection tube.
[0023]
In this way, the water for breeding can be subdivided into a cluster of breeding water by magnetic force, flow and potential difference, and water purification by phytoplankton in the breeding water area can be promoted. It is possible to promote the oxidation reaction of ammonia nitrogen and suppress breeding of miscellaneous bacteria by ionization of breeding water to make the breeding water area suitable for breeding aquatic organisms.
[0024]
Further, the aquatic organism rearing apparatus according to the present invention is the aquatic organism rearing apparatus according to the present invention described above, wherein the connecting pipe is housed inside the outer tubular body made of a non-ferrous metal and the outside. A flow path extending from the inlet side to the outlet side of the connecting pipe is formed between the inner wall portion of the connecting pipe and the inner pipe made of a non-ferrous metal different from the outer pipe. There is a difference (potential difference) between the potentials of the two types of non-ferrous metals (standard potential on the basis of H = 0 V) between the pipe body.
[0025]
Further, the aquatic organism rearing apparatus according to the present invention is the above-described aquatic organism rearing apparatus according to the present invention, wherein the outer tube has a monopolar potential plus a monopotential plus a bivalent or trivalent physicochemical. The non-ferrous metal tube which has a property, and an inner side pipe body is comprised by the non-ferrous metal tube which has the physicochemical property in which a monopolar electric potential is a minus electric potential.
[0026]
In addition, the aquatic organism rearing apparatus according to the present invention is the above-described aquatic organism rearing apparatus according to the present invention, wherein two types of non-ferrous metals are gold (Au) and titanium (Ti), and platinum (Pt). One of the cases of titanium (Ti).
[0027]
With this configuration, a difference (potential difference) between potentials (standard potentials based on H = 0 V) of each of the two types of non-ferrous metals can be reliably generated. For this reason, the ionic bond of breeding water can be made more unstable.
[0028]
Further, an aquatic organism breeding apparatus according to the present invention includes the breeding water circulation system having the water pump for circulating the breeding water in the breeding water area in the aquatic organism breeding apparatus according to the present invention described above. A zeolite filter body is disposed in the water circulation system, and the water for breeding that has passed through the magnetic treatment device is filtered by the zeolite filter body and circulated in the breeding water area by driving the water pump.
[0029]
With this configuration, the cation exchange function and adsorption function of zeolite can be added to the breeding water in addition to the function of subdividing the breeding water cluster by magnetic force, flow and potential difference, and more by the phytoplankton in the breeding water area. Water purification can be promoted, nitrifying bacteria can be grown and their activity expressed to promote the oxidation reaction of ammonia nitrogen, and breeding of miscellaneous bacteria can be suppressed by ionization of breeding water, The breeding water area can be made an environment suitable for breeding underwater organisms.
[0030]
Further, the aquatic organism rearing apparatus according to the present invention is the aquatic organism rearing apparatus according to the present invention, wherein the rearing facility is a fish farming facility, a live fish breeding facility, a goldfish breeding facility, an aquarium facility such as an aquarium, etc. It is.
[0031]
With this configuration, in a breeding facility such as an aquaculture facility such as a fish farm, a live fish breeding facility, a goldfish breeding facility, or an aquarium, a magnetic processing device applies a magnetic force to the breeding water to flow at this predetermined flow rate. The breeding water cluster can be subdivided by magnetic force to promote water purification by phytoplankton in the breeding water area, and nitrifying bacteria can be grown and their activities expressed to oxidize ammonia nitrogen In addition, the breeding of the bacteria can be suppressed by ionization of the breeding water, so that the breeding water area can be made an environment suitable for breeding underwater organisms.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0033]
FIG. 1 is a diagram for explaining the configuration of an aquatic animal breeding apparatus according to the present invention, FIG. 2 is a perspective view of the magnetic processing apparatus, FIG. 3 is a side view of the magnetic processing apparatus, and FIG. 4 is taken along line XX in FIG. It is sectional drawing.
[0034]
The magnetic processing apparatus A has a magnetic processing body A-1 as shown in FIGS. 2 to 6, and this magnetic processing body A-1 includes one magnetic processing body 1 and the other magnetic processing body 2. And a connecting pipe 24.
[0035]
One magnetic processing body 1 and the other magnetic processing body 2 have the same configuration. This one magnetic processing body 1 has a magnet holding case 3 which is one box-shaped magnet holding case made of a soft iron material. The magnet holding case 3 includes a bottom surface portion 3A and left and right surface portions 3B, 3C and front and rear surface portions 3D and 3E. Further, semicircular groove portions 6 are formed at the edge portions of the front and rear surface portions 3D and 3E. A square columnar permanent magnet 7 which is one anisotropic magnetic body of a square cube is fixed to the inner surface of the bottom surface portion 3A of the magnet holding case 3, and the magnet holding case 3 has a non- A filler 8 made of a synthetic resin, for example, an epoxy resin, which is a magnetic material, is filled, and a permanent magnet 7 is exposed at the center of the filler 8. In this case, the corners of the magnet holding case 3 are rounded with a bending angle of 56 degrees or more so as to prevent magnetic leakage.
[0036]
The other magnetic processing body 2 has the same configuration as the one magnetic processing body 1, but is given a different reference for convenience of explanation. That is, the other magnetic processing body 2 has a magnet holding case 3-1, which is a box-shaped other magnet holding case made of a soft iron material, and the magnet holding case 3-1 has a bottom surface 3A-1. And left and right surface portions 3B-1 and 3C-1 and front and rear surface portions 3D-1 and 3E-1. Moreover, the semicircle-shaped groove part 6-1 is formed in the edge part of the front surface part 3D-1 and 3E-1. And the square pillar-shaped permanent magnet 7-1 which is the other anisotropic magnetic body of a square cube is adhering to the inner surface of the bottom face part 3A-1 of the magnet holding case 3-1, and the magnet holding case. 3-1, a nonmagnetic filler 8-1 made of a synthetic resin, for example, an epoxy resin is filled, and a permanent magnet 7-1 is exposed at the center of the nonmagnetic filler 8-1.
[0037]
The magnetic processing body A-1 connects one magnetic processing body 1 and the other magnetic processing body 2 to each other with a connection tube 24 made of a non-magnetic material for flowing the liquid to be processed interposed therebetween. Composed.
[0038]
The connection pipe 24 is composed of an outer pipe body 24A and an inner pipe body 24B which is an inner container. The outer tubular body 24A is made of a non-ferrous metal made of a material having a high ionization tendency or a material having a low ionization tendency.
[0039]
In addition, gold (Au), platinum (Pt), and the like correspond to substances having a small ionization tendency, and it is possible to use a tube body made of gold (Au) or platinum (Pt). ) Have mono-, bi-, and tri-valent physicochemical properties, so that gold tubes made of gold (Au) are used as outer tubes 24A. Used. Joint portions 9 are provided on both sides of the outer tube body 24A.
[0040]
As the internal tube 24B, a non-ferrous metal tube having a physicochemical property such as titanium (Ti), tungsten (W) or the like having a unipolar potential of minus potential is used.
[0041]
Then, in a state where the inner tube body 24B is concentrically accommodated in the outer tube body 24A, the portions facing each other are crushed in the central portion of the outer tube body 24A, and the inner tube body 24B is crushed by these crushed portions 30. The inner tube 24B is housed and fixed concentrically in the outer tube 24A by swallowing. In this case, an outer flow path 31 is formed between the inner and outer tubular bodies 24B and 24A at a portion other than the crushing portion 30, and an internal flow path 32 is formed in the inner tubular body 24B. It is formed.
[0042]
As shown in FIG. 4, one magnetic processing body 1 and the other magnetic processing body 2 are combined at respective joints (edge portions) 3 a and 3 a-1 of the magnet holding cases 3 and 3-1. The connecting pipe 24 passes through a circular hole which is a pipe sandwiching portion formed by the semicircular grooves 6 and 6-1, and the permanent magnet 7 of one magnetic processing body 1 and the other magnetic processing body 2. The permanent magnet 7-1 is opposed to the permanent magnet 7-1 across the connecting tube 24, the opposed end 7a of the permanent magnet 7 is an S pole, and the opposed end 7a-1 of the permanent magnet 7-1 is an N pole. .
[0043]
In this case, the magnet holding cases 3 and 3-1 constitute a continuous frame, and this frame forms a part of a so-called magnetic circuit. That is, the magnetic flux density is high (4000 Gauss to 8000) from the facing end (S pole) 7a of the permanent magnet 7 of one magnetic processing body 1 toward the facing end (N pole) 7a-1 of the permanent magnet 7-1. A magnetic circuit (inductive magnetic double pole closed circuit) is formed in which a Gaussian magnetic field is formed, the two lines of magnetic force F pass through the connecting tube 24, pass through the frame body 10, and converge on the permanent magnet 7.
[0044]
In the case of this magnetic circuit, the corners of the magnet holding cases 3 and 3-1 are rounded with a bend angle of 56 degrees or more. Therefore, the magnetic efficiency is improved by eliminating the magnetic leakage and making the circuit closed. Yes.
[0045]
The lines of magnetic force F generated in the magnetic circuit in this way penetrate the connecting pipe 24 and flow in the connecting pipe 24 as a processing target (fluid to be processed containing various positive and negative ions and charged fine charged particles). A magnetic field perpendicular to the current flow is formed and applied.
[0046]
Therefore, a so-called Lorentzka is generated by applying a magnetic field at right angles to the flow of the fluid to be processed including various positive and negative ions and charged fine charged particles, and the fluid molecules and the charged particles move relative to each other. Furthermore, collisions will occur, the structure of various atoms in the fluid to be treated will change, and the properties of the fluid will change. Density, surface tension, viscosity, dielectric constant, electrolyte dissolution rate Various effects such as an increase in electrical conductivity, gas solubility, etc. are produced.
[0047]
As shown in FIG. 1, the fish farm 30 as an aquatic animal breeding facility includes a fish pond (breeding tank) 31 such as a fry pond, a training pond, a parent fish pond, and a farm pond as a breeding water area, and the fish pond 31. And a breeding water circulation system 35 for circulating breeding water (fresh water or seawater). The fish pond 31 is circular, and the pond bottom 32 is formed in the lowest conical shape at the center, and a drain port 33 is provided at the center of the pond bottom 32. Further, a zeolite filter body 42 is installed on the inner peripheral portion of the peripheral wall portion 31 a of the fish pond 31. The zeolite filter body 42 is configured, for example, by filling a large number of zeolites (zeolite) 44 in a rod-shaped body 43. A water injection pipe 41 is disposed above the peripheral wall portion 31 a of the fish pond 31, and the water injection port 34 of the water injection pipe 41 is located immediately above the zeolite filter 42.
[0048]
Zeolite is a hydrous silicate of aluminum containing alkali metals such as sodium, potassium, and calcium, and alkaline earth metals. In this zeolite, a part of silicon at the center of the tetrahedron is replaced with aluminum, and the shortage is reduced. It is made up of positively charged alkali metals and alkaline earth metals, and this kind of cation can move relatively freely in voids and vacancies, so it comes into contact with solutions containing different cations. Then they exchange each other. This is the reason why zeolite can be used as a cation exchange agent, and it is generally represented by the value of the base substitution capacity (CEC).
[0049]
In addition, zeolite has a remarkably large amount of water of crystallization compared to other minerals, and when this water of crystallization is heated, it is not released all at once and is almost continuously dehydrated. Since the structure is porous without being destroyed, the voids and pores that pass vertically and horizontally have a sponge-like structure that adsorbs moisture and various gases. Therefore, the dehydrated zeolite becomes an adsorbent.
[0050]
A large number of voids and vacancies present in zeolite are not so coarse, and the diameter of the voids and vacancies is 3 to 6 angstroms (1 angstrom is one hundred millionth of a trout) and is almost fixed depending on the type. Depending on the size of the voids and holes, the molecules can be screened and used as an adsorbent or a separating agent.
[0051]
The breeding water circulation system 35 has a circulation pump 36 that is a water pump and a filter 37, and the suction side 36 b of the circulation pump 36 is connected to the outlet side 37 b of the filter 37 through a pipe 38. In addition, the inlet side 37 a of the filter 37 is connected to the drain 33 of the fish pond 31 through a pipe 39. Further, the discharge side 36 a of the circulation pump 36 is connected to a water injection pipe 41 through a pipe 40.
[0052]
The pipes 38, 39, and 40 constitute a part of a circulation pipe as a flow pipe, and the magnetic processing apparatus A is disposed in the pipe 40. Note that the magnetic processing apparatus A is disposed in the pipe 40 by connecting to the pipe 40 using the joint portion 9 of the connection pipe 24 of the magnetic processing apparatus A.
[0053]
Therefore, when the circulating pump 36 is driven, the breeding water filtered by the filter 37 falls from the water injection pipe 41 to the zeolite filter body 42 via the pipe 40. In this case,
The breeding water passes through the magnetic processing apparatus A. The breeding water dropped on the zeolite filter 42 is further filtered by the zeolite 44 and then injected into the fish pond 31. Then, the water for breeding in the fish pond 31 enters the filter 37 from the drain port 33 through the pipe 40, is filtered by the filter 37, is sucked into the suction side of the circulation pump 36, and is circulated.
[0054]
When the breeding water passes through the magnetic processing apparatus A, the breeding water having charged particles as a fluid to be treated passes through a magnetic field of 4000 to 8000 Gauss at a constant flow rate at a right angle. For this reason, the breeding water cluster is subdivided, and the charged particles with higher conductivity are ionized. In particular, ionization-prone metal elements such as potassium, calcium, and magnesium cause repetitive movement when they are permeated by a magnetic field, and these ionization-prone metal elements are released from the binding substance to generate anions and cations, that is, magnetic decomposition. As described above, the nature of the water for breeding changes, and various effects such as an increase in density, surface tension, viscosity, dielectric constant, dissolution rate of electrolyte, etc., or an increase in electrical conductivity, gas solubility, etc. Arise.
[0055]
By supplying a flow rate of 1.2 to 1.6 m per second to the breeding water, a metallic element (calcium, sodium, magnesium, potassium, aluminum contained in a small amount in the breeding water within the connection pipe 24 through which the breeding water flows. Static electricity (0.06 mA at a flow rate of 1.2 m / s and 0.08 mA at a flow rate of 1.6 m / s) is generated in a charged body (charged particles) such as iron, titanium (mineral component).
[0056]
In addition, the outer tube body 24A is a non-ferrous metal having a monovalent potential of gold (Au) that is monovalent, divalent, or trivalent physicochemical properties (monopolar potential in the case of gold Au is 1.7). The inner tube 24B is composed of a metal tube, and the inner tube 24B is composed of a non-ferrous metal tube having a physicochemical property (a monopolar potential of titanium Ti is −1.75) such as titanium Ti having a negative monopolar potential. Therefore, a potential difference is generated between the outer tube body 24A and the inner tube body 24B. This potential difference makes the ionic bond unstable.
[0057]
Then, a magnetic field of 4000 to 8000 Gauss is generated between the magnetic poles NS of the permanent magnet 7 which is one anisotropic magnetic body and the permanent magnet 7-1 which is the other anisotropic magnetic body. An electromotive force is generated by applying a magnetic field to the connection tube 24, and the charged body reacts with + ions of the material of the connection tube 26 and is ionized (−ionized).
[0058]
For these reasons, the nature of the breeding water can be changed by applying its own flow rate and magnetic force to promote water purification by phytoplankton in the fish pond 31 and also grow nitrifying bacteria. Then, the oxidation reaction of ammonia nitrogen is promoted by expressing the activity, and the breeding of bacteria is suppressed by ionization of the breeding water to make the inside of the fish pond 31 suitable for the breeding of fish. it can.
[0059]
Moreover, in addition to the function of subdividing the breeding water cluster by the magnetic force, flow and potential difference, the cation exchange function and adsorption function of the zeolite can be added, and the water quality by the phytoplankton in the fish pond 31 can be increased. Purification can be promoted, nitrifying bacteria can be propagated and their activity expressed to promote the oxidation reaction of ammonia nitrogen, and breeding of miscellaneous bacteria can be suppressed by ionization of breeding water. The inside of the pond 31 can be made into an environment suitable for raising fish.
[0060]
In addition, since the corners of the magnet holding cases 3 and 3-1 are rounded with a bending angle of 56 degrees or more, there is no leakage of magnetic field lines to the outside, and the magnetic treatment of breeding water is smoothly performed. This can be performed, and adverse effects on other control devices due to leakage of magnetic field lines can be suppressed.
[0061]
The combination of the outer tube body 24A and the inner tube body 24B is not only the case of gold (Au) and titanium (Ti), but also the case of platinum (Pt) and titanium (Ti). A potential difference is generated between the outer tube body 24A and the inner tube body 24B, and this potential difference makes the ionic bond unstable.
[0062]
In the above-described embodiment, the magnetic processing apparatus A is arranged in the discharge-side pipe 40. However, as shown in a virtual line in FIG. 1, the magnetic processing apparatus A is arranged in the suction-side pipe. May be.
[0063]
The aquatic organism breeding apparatus according to the present invention can also be used in a breeding facility 50 equipped with a breeding tank for breeding aquatic organisms such as goldfish, other fish, crustaceans and molluscs.
[0064]
As shown in FIG. 7, the breeding facility 50 includes a breeding tank 51 as a breeding water area and a breeding water circulation system 52 that circulates water in the breeding tank 51. The breeding tank 51 includes a box-shaped tank main body 51A made of glass and transparent acrylic resin, and a lid 51B is attached to the tank main body 51A.
[0065]
The breeding water circulation system 52 includes a circulation pump 53 and a filter (for example, zeolite filter) 54, and the circulation pump 53 and the filter 54 are held on the lid 52 side. That is, the circulation pump 53 is a rotary pump that is held by the lid 51B at the drive motor 54, and is mostly submerged in water.
[0066]
The lid 51B is provided with a filter housing chamber 55. The lid 51B constituting the bottom of the filter housing chamber 55 is provided with a water supply port 56. The filter 57 is accommodated in the filter housing chamber 55. A shower pipe 58 is disposed above the filter 57.
[0067]
The suction-side tube 53b of the circulation pump 53 is installed in water, and the discharge-side tube 53a of the circulation pump 53 passes through the lid 51B and is led out of the tank body 51A and is connected to the shower pipe 58. It is.
[0068]
The discharge side pipe 53a, the shower pipe 58, and the suction side pipe 53b constitute a part of a circulation pipe as a flow pipe, and the magnetic processing apparatus A is disposed on the discharge side pipe 53a. It is. In order to arrange the magnetic processing apparatus A in the pipe 40, the joint portion 9 of the connecting pipe 24 of the magnetic processing apparatus A is used to connect to the discharge side pipe body 53a.
[0069]
Therefore, similarly to the case where the magnetic processing apparatus A is arranged in the fish farming facility 30 described above, the magnetic lines of force F generated in the magnetic circuit of the magnetic processing apparatus A penetrate the connecting pipe 24, and the inner and outer flow paths 32 in the connecting pipe 24, A magnetic field perpendicular to the flow of breeding water as a treatment target flowing through 31 is formed and applied.
[0070]
Therefore, by applying magnetism (lines of magnetic force F) at right angles to the flow of water containing mineral component molecules, a so-called Lorentz force can be generated to ionize and subdivide the mineral component molecules. That is, the mineral component of breeding water is magnetically reacted to subdivide the cluster and ionize it.
[0071]
By providing a flow rate of 1.2 to 1.6 m per second to the breeding water, metal elements (calcium, sodium, magnesium, potassium contained in a trace amount in the mineral component that is the breeding water within the connection pipe 24 through which the breeding water flows. Static electricity (0.06 mA at a flow rate of 1.2 m / s and 0.08 mA at a flow rate of 1.6 m / s) is generated in a charged body (charged particles) such as aluminum, iron, and titanium.
[0072]
In addition, the outer tube body 24A is a non-ferrous metal having a monovalent potential of gold (Au) that is monovalent, divalent, or trivalent physicochemical properties (monopolar potential in the case of gold Au is 1.7). The inner tube 24B is composed of a metal tube, and the inner tube 24B is composed of a non-ferrous metal tube having a physicochemical property (a monopolar potential of titanium Ti is −1.75) such as titanium Ti having a negative monopolar potential. Therefore, a potential difference is generated between the outer tube body 24A and the inner tube body 24B. This potential difference makes the ionic bond of the mineral component of the breeding water unstable.
[0073]
Then, a magnetic field of 4000 to 8000 Gauss is generated between the magnetic poles NS of the permanent magnet 7 which is one anisotropic magnetic body and the permanent magnet 7-1 which is the other anisotropic magnetic body. An electromotive force is generated by applying the magnetic field of the magnetic field to the connection tube 24, and the charged body reacts with + ions of the material of the connection tube 26 and is ionized (−ionized).
[0074]
For this purpose, the quality of the breeding water can be changed by applying its own flow rate and magnetic force to promote water purification by the phytoplankton in the breeding tank 51, and the nitrifying bacteria can be grown. The activity can be expressed to promote the oxidation reaction of ammonia nitrogen, and the breeding of germs can be suppressed by ionization of the breeding water to make the breeding tank 51 suitable for the breeding of aquatic organisms. .
[0075]
Thus, the breeding water as a processing target is processed by the magnetic processing main body A-1. Since the magnetic field is generated by facing the pair of permanent magnets 7 and 7-1, the magnetic force penetrating the breeding water flow at a right angle is strong, and the corners of the magnet holding cases 3 and 3-1 are Because the bend angle is 56 degrees or more, there is no leakage of the magnetic lines to the outside, and the magnetic treatment of the breeding water can be smoothly performed, and other control devices due to the leakage of the magnetic lines The adverse effects of can be suppressed.
[0076]
The combination of the outer tube body 24A and the inner tube body 24B is not only the case of gold (Au) and titanium (Ti), but also the case of platinum (Pt) and titanium (Ti). A potential difference is generated between the outer tube body 24A and the inner tube body 24B, and this potential difference makes the ionic bond of the mineral component unstable.
[0077]
Moreover, although the above breeding facility 50 is an upper filtration type integrated type, the magnetic processing apparatus A is also disposed in the external filtration type separate breeding facility 50-1 shown in FIG. The breeding facility 50-1 includes a breeding water circulation system 62 that is provided separately from the breeding tank 61 and circulates breeding water in the breeding tank 61.
[0078]
The breeding water circulation system 62 is configured by connecting a pumping pump unit 64 to a filter unit 63, and the suction side of the pumping pump unit 64 is a filter medium (not shown) (for example, in the filter unit 63). Zeolite filter body). And the suction side pipe body 64b is connected to the suction port 63a provided in this filter part 63, the tip side of this suction side pipe body 64b is installed in the water of the breeding tank 61, and a pumping pump part The front side of the 64 discharge side pipe bodies 64 a is installed in the water of the breeding tank 61.
[0079]
The discharge side pipe body 64a and the suction side pipe body 64b constitute a part of a circulation pipe line that is a flow pipe line, and the magnetic processing apparatus A is disposed on the discharge side pipe body 64a. Note that the magnetic processing apparatus A is disposed on the discharge side pipe body 64a by connecting to the discharge side pipe body 64a using the joint portion 9 of the connecting pipe 24 of the magnetic processing apparatus A.
[0080]
Therefore, similarly to the case where the magnetic processing apparatus A is arranged in the breeding facility 50 described above, the magnetic field lines F generated in the magnetic circuit of the magnetic processing apparatus A penetrate the connecting pipe 24, and the inner and outer flow paths 32 in the connecting pipe 24, A plant in the breeding tank 61 is formed by applying a magnetic field perpendicular to the flow of breeding water as a treatment target flowing through 31 and changing the properties of the breeding water by applying its own flow velocity and magnetic force. Water purification by plankton can be promoted, nitrifying bacteria can be grown and their activities can be expressed to promote the oxidation of ammonia nitrogen, and breeding of miscellaneous bacteria can be suppressed by ionization of breeding water. Thus, the inside of the breeding tank 61 can be made an environment suitable for breeding underwater organisms.
[0081]
In addition to the fish farming facilities, the aquatic creature breeding equipment includes live fish breeding facilities, goldfish breeding facilities, and breeding facilities such as ornamental aquarium facilities such as aquariums, live fish breeding facilities, goldfish breeding facilities and A magnetic treatment device A is provided in the breeding water circulation system of a breeding facility such as an ornamental aquarium facility such as an aquarium, and a magnetic force is applied to the breeding water, thereby magnetizing the cluster of breeding water flowing at a predetermined flow rate. It is subdivided by force to promote water purification by phytoplankton in the breeding water area, and to promote the oxidation reaction of ammonia nitrogen by growing and expressing its nitrifying bacteria, and by ionization of breeding water Control the propagation of germs and make the breeding area suitable for aquatic life.
[0082]
【The invention's effect】
As described above, according to the aquatic organism rearing apparatus according to the present invention, in the aquatic organism rearing apparatus, the rearing water that flows at the predetermined flow rate by applying a magnetic force to the rearing water by the magnetic processing device. Clusters can be subdivided by magnetic force to promote water purification by phytoplankton in breeding waters, and nitrifying bacteria can be grown and their activities expressed to promote the oxidation of ammonia nitrogen, In addition, breeding of miscellaneous bacteria can be suppressed by ionization of breeding water, and the breeding water area can be made an environment suitable for breeding underwater organisms.
[0083]
Moreover, according to the aquatic organism breeding apparatus according to the present invention, by giving the breeding water a flow rate of, for example, 1.2 m to 1.6 m per second, in a conduit (connection pipe) through which the breeding water flows, Charged bodies (charged particles) such as metal elements (calcium, sodium, magnesium, potassium, aluminum, iron, titanium) contained in trace amounts in breeding water are charged with static electricity (for example, 0.06 mA at 1.2 m per second, flow rate at 1 per second) .6m, 0.08 mA) is generated, and an electric potential difference is generated between the outer tube and the inner tube in the connecting tube, thereby destabilizing the ionic bond and making one anisotropic magnetic body and the other An electromotive force is generated by applying a magnetic field of, for example, 4000 Gauss to 8000 Gauss to the connecting tube between the magnetic poles of the anisotropic magnetic body, and the charged body reacts with + ions of the connecting tube material. The It can be turned of.
[0084]
In this way, the water for breeding can be subdivided into a cluster of water for breeding by magnetic force, flow and potential difference to promote water purification by phytoplankton in the breeding water area, and nitrifying bacteria can be proliferated and its activity increased. It can be expressed to promote the oxidation reaction of ammonia nitrogen, and the propagation of miscellaneous bacteria can be suppressed by ionization of breeding water, so that the breeding water area can be made suitable for the breeding of aquatic organisms.
[0085]
Moreover, according to the aquatic organism rearing apparatus according to the present invention, a difference (potential difference) between potentials (standard potentials based on H = 0 V) of each of the two types of non-ferrous metals can be reliably generated. For this reason, the ionic bond of breeding water can be made more unstable.
[0086]
Further, according to the aquatic organism breeding apparatus according to the present invention, in addition to the function of subdividing the breeding water cluster by magnetic force, flow and potential difference, the cation exchange function and adsorption function of zeolite are added. It is possible to promote water purification by phytoplankton in the breeding water area, and to promote the oxidation reaction of ammonia nitrogen by growing nitrifying bacteria and expressing their activity. It is possible to suppress the propagation of various bacteria by ionization of the water and make the breeding water area suitable for the breeding of aquatic organisms.
[0087]
Further, according to the aquatic organism breeding apparatus according to the present invention, in a breeding facility such as a fish farming facility, a live fish breeding facility, a goldfish breeding facility and an aquarium facility such as an aquarium, a magnetic processing device applies magnetic force to the breeding water. By providing this, it is possible to subdivide the cluster of breeding water flowing at this predetermined flow rate by magnetic force and promote water purification by phytoplankton in the breeding water area. It is possible to promote the oxidation reaction of ammonia nitrogen and suppress breeding of miscellaneous bacteria by ionization of breeding water to make the breeding water area suitable for breeding aquatic organisms.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing the configuration of an aquatic organism breeding apparatus according to the present invention.
FIG. 2 is a perspective view of a magnetic processing apparatus.
FIG. 3 is a side view of the magnetic processing apparatus.
4 is a cross-sectional view taken along line XX of FIG.
FIG. 5 is a front view of a magnetic processing body in the magnetic processing apparatus.
FIG. 6 is a perspective view in which a part of the magnetic processing body is omitted.
FIG. 7 is a diagram illustrating the configuration of another aquatic organism rearing apparatus according to the present invention.
FIG. 8 is a configuration explanatory diagram of another aquatic organism breeding apparatus according to the present invention.
FIG. 9 is a perspective view of a magnetic treatment device used in a water treatment device.
FIG. 10 is an exploded perspective view of the magnetic processing apparatus.
[Explanation of symbols]
1 Magnetic processing body
2 The other magnetic processing body
3 One magnet holding case
3-1 The other magnet holding case
3a seam
3a-1 seam
6 Groove
6-1 Groove
7 One permanent magnet (one anisotropic magnetic body)
7-1 The other permanent magnet (the other anisotropic magnetic body)
24 Connection pipe
24A outer tube
24B inner tube
30 Fish farming facilities
31 Fish pond (bred water)
35 Water circulation system for breeding
36 Circulation pump
37 Filter
50 rearing facilities
50-1 Rearing facilities
51 Breeding tank (breeding water area)
52 Water circulation system for breeding
53 Circulation pump
54 Filter
61 Breeding tank (breeding water area)
62 Water circulation system for breeding

Claims (5)

An aquatic organism breeding device configured to cause breeding water to flow into a breeding water area of a breeding facility by driving a water pump, and to breed aquatic organisms in the breeding water area,
A magnetic processing device for subdividing the breeding water cluster that flows at a predetermined flow rate by a magnetic force is provided in the breeding water flow line so that the inside of the breeding water area is suitable for breeding the aquatic organisms. the way,
The magnetic processing apparatus includes one magnetic processing body in which one anisotropic magnetic body of a square cube is housed in one magnet holding case made of a magnetic body, and the other anisotropic magnetic body of a square cube is made of a magnetic body. Of the other magnet holding case and magnetically attracting the one magnet holding case to the other magnet holding case so as to form a magnetic induction double-pole closed circuit at the joint. The other magnetic processing body to be connected, the joint between the one and the other magnet holding case sandwiches a non-magnetic connection pipe through which the breeding water flows, and magnetically attracts each other at the joint, The one and the other magnet holding cases are part of the magnetic induction double-pole closed circuit, and the breeding water flows between the magnetic poles of the one anisotropic magnetic body and the other anisotropic magnetic body. Magnetic field perpendicular to Formed is to apply the magnetic field to the breeding water,
Between the outer tube made of non-ferrous metal and the inner wall of the outer tube, the connecting tube has a flow path extending from the inlet side to the outlet side of the outer tube. The outer tube and the inner tube made of a non-ferrous metal different from each other, and between the outer tube and the inner tube, the potential (H = 0 V standard electric potential) difference (potential difference) , an aquatic organism breeding apparatus characterized by The outer tube is made of a non-ferrous metal tube having monovalent, positive, and trivalent physicochemical properties, and the inner tube has a negative monopolar potential. 2. The aquatic organism breeding apparatus according to claim 1 , wherein the apparatus is composed of a non-ferrous metal tube having physicochemical properties. The underwater according to claim 2 , wherein the two types of non-ferrous metals are gold (Au) and titanium (Ti), and are any one of platinum (Pt) and titanium (Ti). Biological breeding equipment. A breeding water circulation system having the water pump that circulates the breeding water in the breeding water area is provided, a zeolite filter is disposed in the breeding water circulation system, and the water treatment pump passes through the magnetic treatment device. The aquatic organism breeding apparatus according to any one of claims 1 to 3 , wherein breeding water is filtered through the zeolite filter and circulated in the breeding water area. The breeding facilities, fish facilities, live fish breeding facilities, goldfish breeding facilities, breeding apparatus of aquatic organisms as claimed in one any of claims 1 to 4, such a ornamental aquarium facilities as aquarium.

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