KR20180016742A - Device for saturating dissolved oxygen - Google Patents

Abstract

The present invention relates to a device for saturating dissolved oxygen using rotational magnetization. More particularly, a plurality of permanent magnets with a magnetic force of about 5,000-8,000 gauss are symmetrically arranged in the outer surface of a cylindrical main body, and an alternation electromagnet with a magnetic force of about 10,000-15,000 gauss is arranged in the inner surface of the cylindrical main body, and thus characteristics of water are changed by generating a magnetic force underwater to convert the same into a fine organization and weak alkaline water (PH 3-7.4). Water is introduced into the inside of the cylindrical main body by rotation of a blade of a submerged motor installed in a lower end of the cylindrical main body. With an operation of an ultraviolet lamp, which is made of Pyrex tubes or Quartz tubes of the inside of the cylindrical main body, bacterial strains contained in water introduced into the inside of the cylindrical main body are irradiated with ultraviolet rays in a magnetic field zone of the permanent magnets and the alternation electromagnet to sterilize the bacterial strains by using irregular light and various wavelengths. A vortex is generated on the surface of water by the blade inducing the flow of a vortex, and thus the water is introduced into the inside of the main body with air on the surface of water. At this time, an anion or the like generated in an anion generator installed outside is swept by the vortex and is introduced into the inside of the main body with air on the surface of water, and thus oxygen in water is dissolved. Therefore, oxygen in water is dissolved until a fluid, in which water and air passed through the main body are mixed, reaches the surface of water.

Description

{DEVICE FOR SATURATING DISSOLVED OXYGEN}

[0001] The present invention relates to an apparatus for saturating a dissolved oxygen rate using a rotor, and more particularly, to an apparatus for saturating a dissolved oxygen rate, which comprises a plurality of permanent magnets arranged on the outer surface of a cylindrical body in left- And the wing feathers of the submersible motor provided at the lower end of the cylindrical body are fired so as to irradiate ultraviolet rays to bacterial strains contained in the ultraviolet lamp, the permanent magnet and the alternating electromagnet As a result, irregular light and various wavelengths are used to sterilize the water. As the water swirls on the water surface, it flows into the inside of the cylindrical body like the air on the water surface. As a result, negative ions generated in the negative ion generator are swept away by the vortex. Together with the oxygen in the water as it flows into the interior of the cylindrical body To be given relates to a dissolved oxygen saturation rate apparatus using a rotating magnetic yongjeon to give the oxygen in the water until reaching the surface of the cylindrical body that has passed through the water and air, the mixed fluid can.

Generally, it was known that when the water contained in the tank was aerated by air, the dissolved oxygen concentration (DO) was high, but it was not known how high it was.

For this reason, experiments were conducted on the numerical values of the aeration time and dissolved oxygen concentration. The water used for the experiment was tap water and hot spring water or heavenly water whose dissolved oxygen concentration was slightly higher than the saturation dissolved oxygen concentration (generally 8 to 8.45 mg / l depending on the temperature) ), And the like.

As a result of the experiment, the tap water (water whose dissolved oxygen concentration is sufficiently lower than the saturation dissolved oxygen concentration) rises to the saturated dissolved oxygen concentration due to prolonged aeration.

On the other hand, in the first place, various kinds of natural water having a saturated oxygen concentration exceeding the saturated oxygen concentration were thought to have a higher dissolved oxygen concentration as the aeration time became longer. As a result, As the aeration time became longer (about 10 minutes to 30 minutes later), the dissolved oxygen concentration decreased and the dissolved oxygen concentration became saturated saturated dissolved oxygen concentration.

In other words, it was found that the saturated dissolved oxygen concentration becomes higher as the aeration time becomes longer as compared with the water having a dissolved oxygen concentration lower than that of the saturated dissolved oxygen concentration.

If the aeration is continued, the water can maintain the saturated dissolved oxygen concentration. For example, in the case where fish are transported to a remote place while being alive, if the aeration device can be provided, the dissolved oxygen concentration of the water in the fish tank can be maintained at a high value.

However, since the transportation truck can not have an aeration device, the plastic bag filled with fish was filled with oxygen, and the plastic bag was returned.

However, since the volume of the oxygen filled in the plastic bag occupies the volume of the load carrier of the truck, there is a disadvantage that the transportation efficiency is poor.

As another method for using water containing a large amount of dissolved oxygen, for example, there can be considered a drinking water for health promotion or water for plants, but since the dissolved oxygen concentration of water is limited, it is possible to further improve the efficiency There was a disadvantage.

Conventionally, in order to accelerate the activity of microorganisms decomposing organic sludge in water treatment or the like, a method in which water is aerated is adopted.

It has also been known that dissolved oxygen is increased in water by aeration in water. It has been known that water in which dissolved oxygen is increased is preferable for cultivation of fish and shellfish living in the water, growth of plants, and food for animals such as humans.

As a means of aeration of water,

A plurality of holes (not shown) are provided in the air diffusing pipe so as to open upwardly so that water is received in the tank, horizontally scattering pipes are disposed near the bottom surface of the tank,

A blower is provided outside the tank, one end of the blower and the diffuser is connected by a connecting pipe,

When the blower is operated, air is blown from the blower to the diffuser through the connecting pipe, air is blown from the holes of the diffuser into the water in the tank, the water in the tank is aerated by the air,

The aeration-completed water is discharged from the discharge pipe provided with the valve to the outside,

The water having the valve is connected to one end of the inlet pipe while the other end is disposed above the liquid level of the tank and is opened to the air,

When water is supplied from the water source to the tank, the valve is opened and water is injected into the tank from the other end opening of the water introduction pipe,

The water introduced into the tank from the water introduction pipe is once supplied into the tank through the air. This is because water is aerated by the air in the tank, .

However, since there is a limit in the dissolved oxygen concentration of water, there is a disadvantage that further improvement in efficiency can not be achieved.

Thus, Japanese Patent Application Laid-Open No. 10-2010-0119751 dated November 10, 2010 (a method for producing water containing supersaturated dissolved oxygen)

This is because water is provided in the circulation path made up of the tank and the circulation communication pipe, and the pump and the rock containing much silicon dioxide in the igneous rock are provided on the way of the circulation communication pipe,

The pump is operated to circulate the water between the tank and the circulation communication line without contacting the air, and the water is contacted with the rock to bring the silicon dioxide in the igneous rock Water containing large amounts of dissolved oxygen can be generated by cyclically contacting the rock containing much water.

However, according to the method of manufacturing water containing supersaturated dissolved oxygen as described above, since dissolved oxygen is contained in the contact between the rock containing a large amount of silicon dioxide and the purifying water in the igneous rock, it can not be treated in a large capacity, There is a limit to the contained material, and there is a disadvantage in that the rock is frequently replaced after it is used for a while.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a cylindrical body having a plurality of permanent magnets arranged in left and right symmetry on the outer surface thereof, And the water introduced by the rotation of the wing feathers of the submersible motor provided at the lower end of the cylindrical body irradiates ultraviolet rays to bacterial strains contained in the ultraviolet lamp, the permanent magnet and the alternating electromagnet, It is made to be sterilized by light and various wavelengths, and as vortex occurs on the surface of water, it flows into the inside of the cylindrical body like the air above the water surface, and negative ions generated in the negative ion generator are swept away by the vortex, The oxygen in the water is discharged into the interior of the body And it is an object of the present invention to provide a dissolved oxygen rate saturating apparatus using rotational magnetization in which water mixed with water and air passing through a main body of a cylindrical body is allowed to be charged into water until reaching the water surface.

In order to achieve the above object, the present invention provides a dissolved oxygen rate saturating apparatus using rotary magnet,

Sterilization, and dissolved oxygen saturation using a water motor and a wing capable of sucking water,

On the outer surface of the cylindrical body, a plurality of permanent magnets having a magnetic force of about 5,000 to 8,000 Gauss are arranged symmetrically to the left and right, and an alternating electromagnet having a strong magnetic force of about 10,000 to 15,000 Gauss is arranged on the inner surface, (PH 3 ~ 7.4) by changing the characteristics of the microorganisms,

The wing feathers of the underwater motor provided at the lower end of the cylindrical body are rotated to allow water to flow into the cylindrical body,

UV lamps made of pyrex tube or quartz tube inside the cylindrical body are operated to irradiate ultraviolet rays from the permanent magnets and alternate electromagnets with respect to the bacteria contained in the water flowing into the cylindrical body, Sterilization is carried out by the wavelength,

The vortex induces the vortex flow, causing swirling on the surface of the water. As the air above the water surface flows into the inside of the cylindrical body, negative ions generated from the external negative ion generator are swept away by the vortex. And the oxygen in the water is allowed to be charged in the water until the fluid having the water mixed with the air passing through the cylindrical body reaches the surface of the water.

According to the dissolved oxygen rate saturating apparatus using the rotary magnetization according to the present invention, a plurality of permanent magnets having a magnetic force of about 5,000 to 8,000 Gauss are arranged on the outer surface of the cylindrical body in left and right symmetry, and 10,000 to 15,000 Gauss (PH 3 ~ 7.4) by changing the characteristics of the water while generating magnetic force in the water,

The wing feathers of the underwater motor provided at the lower end of the cylindrical body are rotated to allow water to flow into the cylindrical body,

UV lamps made of pyrex tube or quartz tube inside the cylindrical body are operated to irradiate ultraviolet rays from the permanent magnets and alternate electromagnets with respect to the bacteria contained in the water flowing into the cylindrical body, Sterilization is carried out by the wavelength,

The vortex induces the vortex flow, causing swirling on the surface of the water. As the air above the water surface flows into the inside of the cylindrical body, negative ions generated from the external negative ion generator are swept away by the vortex. So that the oxygen in the water is allowed to flow into the cylindrical body until the fluid mixed with water and air passing through the cylindrical body reaches the water surface.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing an overall configuration of the present invention. Fig.
2 is a cross-sectional view of the essential part of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 shows the overall configuration of a dissolved oxygen rate saturating apparatus using a rotary magnetization according to the present invention,

At least one dissolved oxygen rate saturating apparatus (2) of the present invention is installed in the reservoir (1)

A first circulation path 3 made of feldspar foam is installed from the bottom surface of the reservoir 1 to move to the first small reservoir 4,

A second circulation path 5 made of feldspar foam is installed in the first small reservoir 4 to move to the second small reservoir 6,

A third circulation path 7 made of feldspar foam is installed in the second small reservoir 6 to move to the third small reservoir 8,

The third small reservoir 8 is provided with a fourth circulation path 9 made of feldspar foam so as to be circulated to the reservoir 1 via the stepped bowl 10 in the form of a slide.

FIG. 2 shows a detailed configuration of a dissolved oxygen rate saturating apparatus using a rotary magnetization according to the present invention,

A plurality of permanent magnets 12 having a magnetic force of about 5,000 to 8,000 Gauss are arranged on the outer surface of the cylindrical body 11 in left and right symmetry and a plurality of alternating electromagnets 13 ) Are arranged symmetrically to generate a magnetic force in the water while changing the characteristics of the water to convert the fine structure into weakly alkaline water (PH 3 to 7.4)

The wing feathers 15 of the submersible motor 14 provided at the lower end of the cylindrical main body 11 are rotated to allow water to flow into the cylindrical main body 11,

The ultraviolet lamp 16 made of a Pyrex tube or a quartz tube inside the cylindrical body 11 is operated and the bacteria of the bacteria contained in the water flowing into the inside of the cylindrical body 11 are immersed in the permanent magnets 12 and Since the magnetic field of the alternating electromagnet 13 is irradiated with ultraviolet rays, sterilization is performed by irregular light and various wavelengths,

A vortex is generated on the surface of the water by the vane 15 leading to the vortex flow and flows into the inside of the cylindrical body 11 like air on the water surface. Anions and the like are swept by the whirlpools and introduced into the interior of the cylindrical body 11 together with the air of the water surface to allow the oxygen in the water to be consumed and the water mixed with the air passing through the cylindrical body is introduced into the water So that oxygen is used.

The negative ions generated in the negative ion generator 17 mainly generate negative ions within the range given by the negative ion cap 18.

The ultraviolet lamp 16 generates ultraviolet rays by a power source supplied through the external power source 19.

The fixing legs 20 are supported by bolts and nuts on the upper part of the cylindrical body 11 while directly supporting the underwater motor 14 so that the fixing legs 20 can be stably installed in the reservoir 1. [

In the dissolved oxygen rate saturating apparatus using the rotary magnetization of the present invention,

At least one dissolved oxygen rate saturating apparatus (2) of the present invention is installed in the reservoir (1) to increase the dissolved oxygen ratio to a saturated state.

A first circulation path 3 made of feldspar foam is provided from the bottom surface of the reservoir 1 so as to move to the first small reservoir 4 so that the generation of plants in the first circulation path 3 .

A second circulation path 5 made of feldspar foam is installed in the first small reservoir 4 so as to move to the second small reservoir 6 so that the second fired reservoir 6 Generation.

A third circulation path 7 made of feldspar foam is installed in the second small reservoir 6 so as to move to the third small reservoir 8 so that the third fountain reservoir 8 Generation.

A fourth circulation path 9 made of feldspar foam is installed in the third small reservoir 8 so as to circulate to the reservoir 1 again via the stepped type trough 10 in the form of a slide, (3) Increase the dissolved oxygen rate through (5) (7) and the airway (10).

On the other hand, the dissolved oxygen rate saturating apparatus 2, which is provided in a large number in the reservoir 1,

On the outer surface of the cylindrical body 11, a plurality of permanent magnets 12 having a magnetic force of about 5,000 to 8,000 Gauss are arranged symmetrically to the left and right, and a plurality of alternating electromagnets having a strong magnetic force of about 10,000 to 15,000 Gauss 13) are symmetrically arranged to change the characteristics of the water while generating magnetic force in the water to convert the fine structure and the number of the weak colors (PH 3 to 7.4).

The wing feathers 15 of the underwater motor 14 provided at the lower end of the cylindrical body 11 are rotated to allow water to flow into the cylindrical body 11. [

The ultraviolet lamp 16 made of a Pyrex tube or a quartz tube inside the cylindrical body 11 is operated and the bacteria of the bacteria contained in the water flowing into the inside of the cylindrical body 11 are immersed in the permanent magnets 12 and Since the ultraviolet rays are irradiated from the magnetic pole of the alternating electromagnet 13, sterilization is performed by irregular light and various wavelengths.

A vortex is generated on the surface of the water by the vane 15 leading to the vortex flow and flows into the inside of the cylindrical body 11 like air on the water surface. Anions and the like are swept by the whirlpools and introduced into the interior of the cylindrical body 11 together with the air of the water surface to allow the oxygen in the water to be consumed and the water mixed with the air passing through the cylindrical body is introduced into the water Allow oxygen to dissolve.

The negative ions generated in the negative ion generator 17 mainly generate negative ions within the range given by the negative ion cap 18.

The ultraviolet lamp 16 generates ultraviolet rays by a power source supplied through the external power source 19.

The fixing legs 20 are supported by bolts and nuts on the upper part of the cylindrical body 11 while directly supporting the underwater motor 14 so that the fixing legs 20 can be stably installed in the reservoir 1. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1: Reservoir 2: Dissolved Oxygen Saturation Device
3, 5, 7, 9: circulation lines 4, 6, 8: small reservoir
10: 11: cylindrical body
12: permanent magnet 13: alternating electromagnet
14: Underwater motor 15: Wing feathers
16: ultraviolet lamp 17: negative ion generator

Claims (2)

At least one dissolved oxygen rate saturating apparatus (2) of the present invention is installed in the reservoir (1)
A first circulation path 3 made of feldspar foam is installed from the bottom surface of the reservoir 1 to move to the first small reservoir 4,
A second circulation path 5 made of feldspar foam is installed in the first small reservoir 4 to move to the second small reservoir 6,
A third circulation path 7 made of feldspar foam is installed in the second small reservoir 6 to move to the third small reservoir 8,
And a fourth circulation path (9) made of feldspar foam is provided in the third small reservoir (8), and is circulated to the reservoir (1) again via the stepped surfaced type (10) Dissolved oxygen rate saturation device using. The method according to claim 1,
In the dissolved oxygen rate saturating apparatus,
A plurality of permanent magnets 12 having a magnetic force of about 5,000 to 8,000 Gauss are arranged on the outer surface of the cylindrical body 11 in left and right symmetry and a plurality of alternating electromagnets 13 ) Are arranged symmetrically so as to generate magnetic force in water,
The wing feathers 15 of the submersible motor 14 provided at the lower end of the cylindrical main body 11 are rotated to allow water to flow into the cylindrical main body 11,
The ultraviolet lamp 16 in the cylindrical main body 11 is operated to move the permanent magnets 12 and the magnetic poles of the alternating electromagnets 13 against the bacteria contained in the water flowing into the cylindrical main body 11, To irradiate ultraviolet rays,
The vortex 15 generates vortex at the surface of the water and flows into the interior of the cylindrical body 11 like the air on the water surface while negative ions generated in the negative ion generator 17 installed outside are swept away by the vortex And the water is introduced into the cylindrical body (11) together with the air of the water surface.

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