KR20180078719A - Liquid storage tank Aeration device - Google Patents

Abstract

The present invention relates to a micro-aeration device of a liquid fertilizer storage tank, and more specifically, to a micro-aeration device of a liquid fertilizer storage tank which can produce high quality liquid fertilizer from which malodor has been removed. The micro-bubble aeration device (1) of a liquid fertilizer storage tank comprises: an ejector (100); an air suction pipe (200) which suctions air from the outside; and an underwater pump (500) which pumps liquid fertilizer to a mixing unit (110) through a nozzle unit (140) of the ejector (100) by pressing the liquid fertilizer. The micro-bubble aeration device (1) of a liquid fertilizer storage tank additionally comprises: a porous rod body (300) which makes suctioned air micro-bubbles and supplies the micro-bubbles to the mixing unit (110) of the ejector (100); and a magnet bar (400) which magnetizes the liquid fertilizer. The ejector (100) of the micro-bubble aeration device (1) of a liquid fertilizer storage tank comprises the mixing unit (110), a magnet bar fixating steel (150), a safety ring (160), and a support steel (170).

Description

[0001] Liquid storage tank Aeration device [0002]

The present invention relates to a liquid storage tank micro-aeration apparatus, and more particularly, to a liquid storage tank micro-aeration apparatus capable of sufficiently supplying air into a liquid storage tank, thereby enlarging a contact area between liquid and air to promote active microorganisms' Which is capable of producing a high-quality livestock with most odors removed.

Farmhouses in rural areas can be classified as livestock farms and seed farms. Here, livestock farming is a term referring to farmers who are mainly engaged in swine and fowl farming, and is used mainly to refer to farmers who raise cattle and pigs. Seeds farmland refers to farmers who mainly produce crops, It is used to refer to farmers who cultivate crops.

Generally, in livestock farms, a large amount of livestock manure is generated from the livestock that are being raised, and a large amount of housing wastewater is generated even in the cleaning of the pens such as pigeon houses and livestock houses.

The problem of overproduction of livestock manure and housing wastewater is a problem not only in Korea but also in the world.

Conventionally, livestock manure and housing wastewater have been collected and dumped into the sea, thereby solving the problem of livestock manure and housing wastewater treatment.

Since 2012, however, marine dumping is totally banned, and various methods of resource saving of livestock manure and housing wastewater to reduce livestock manure and housing wastewater to soil are being studied.

A typical method is a natural circulation farming method in which livestock manure and housing wastewater are composted and liquefied and returned to the soil.

That is, the livestock waste and housing wastewater generated from the livestock farmhouse are separated by solid-liquid separation, and the solid content is mixed with sawdust, rice hull, etc., composted sufficiently and then sprayed on the agricultural land to increase agricultural productivity.

In addition, since the liquid type powder can not be sprayed directly on the cultivated land, it is stored in a liquid pot tank for a certain period of time, sufficiently composted, and then produced with good quality liquid fertilizer with most of the offensive odor removed.

At this time, if the keratinized material which is not sufficiently composted or the liquid which is not properly separated by solid-liquid separation is stored in the liquid tank, it may cause environmental problems due to the bad odor caused by the activity of the anaerobic microorganism.

Therefore, in order to produce a good quality liquid, it is preferable to send livestock manure and housing wastewater fed with feed containing microorganisms (EM microorganisms, etc.) to the liquid tank, Do.

On the other hand, the seedling farmers must use pesticides or chemical fertilizers to grow agricultural crops and increase agricultural productivity.

However, the use of pesticides and chemical fertilizers is gradually decreasing recently in seedling farms due to the deterioration of agricultural productivity caused by the adverse effects of the use of pesticides or chemical fertilizers on the human body and the lowering of the intellect.

In addition, as the advantages of using liquid fertilizer such as production of shiny and good crops and increasing yield are becoming known, the use of pesticides and chemical fertilizers in seedling farms is gradually decreasing, and demand for liquid fertilizer is gradually increasing.

Currently, collaborative systems are being promoted in which livestock produced by livestock farmers is supplied to annexed farmers through individual promises and then distributed to farmland.

Therefore, the livestock farms are constructed with liquid tank to store the solid-liquid separated liquid components in the liquid tank, and they are sufficiently composted to supply the seedlings to the seedling farms after the autumn harvest, have.

As a result, the liquid is stored and composted in the liquid tank for about 5 to 6 months.

At this time, complaints due to the generation of odor during the period of storing livestock manure and housing wastewater in the liquid tank are generated.

In addition, when the liquid fertilizer sprayed on the cultivation land is not properly composted in the liquid fertilizer demanding season, the smell of the liquid fertilizer causes the dissatisfaction of the seed farmer and the complaints are constantly raised, the sludge in the liquid tank is hardened, Clogging phenomenon, failure of underwater pump, etc., and the anaerobicization of the microorganism proceeds, thereby deteriorating the quality of the liquid pot.

In order to produce high-quality livestock, the microbial nutrient, temperature, moisture and air (oxygen) must be provided in order to enable aerobic microorganisms to act vigorously. In the nutrient source of microorganisms, The microbial nutrient is sufficient for the microorganism to dissolve the organic matter. Therefore, the temperature condition is sufficient because the microorganism generates heat when decomposing the organic matter, and the liquid livestock wastewater contains a large amount of moisture due to its property, Therefore, the crucial factor that can contribute to the vigorous activity conditions of microorganisms is to increase the amount of dissolved oxygen by supplying sufficient air (oxygen) to the livestock sewage treatment tank.

To solve this problem, the inventor of the present invention promoted sufficient composting of the liquid stored in the liquid tank through Korean Registered Patent No. 10-1202479 (Registered on Nov. 12, 2012), "Livestock Wastewater Treatment Aeration Unit" And a "livestock wastewater treatment tank aeration device" capable of producing high quality livestock that has been removed.

11 is a view showing the above-mentioned " device for aerobic treatment of livestock wastewater treatment " (hereinafter referred to as " And the duct fitting portion 120 is upwardly welded to the cylinder head 110 which is circularly formed at the central portion of the upper portion of the closed upper portion, A motor housing 100 through which a plurality of vortex discharge holes 130 are passed along the circumference and a plurality of annular guide rings 140 are welded and welded along the lower end of the vortex discharge hole 130; The motor housing part 210 and the motor housing part 210 are formed at the center of the motor housing 100 so as to receive the motor 300 and have a plurality of through holes 220 The upper and lower flanges 200 and 200 'are formed by forming the same number of air guide pipes 230 welded to each other through the through holes 220 and 220'. A motor 300 coupled to a central portion of the upper and lower flanges 200 and 200 'and having a motor shaft 310 extending out of the lower flange; An impeller 400 coupled to a lower end of the motor shaft 310; An outer casing 500 formed in a hollow rectangular parallelepiped shape and filled with a steel foam 550 in a space portion inside the motor housing 100; A duct 600 coupled to the duct fitting portion 120 of the motor housing 100 through the outer casing 500 and serving as an inlet passage for external air (oxygen); An upper band member 710 coupled to the duct inserting unit 530 of the outer casing 500 and a lower band member 710 coupled to the outside of the motor housing 100 protruding from the lower portion of the outer casing 500 720; < / RTI > And a power cable 800 for supplying power.

The above-mentioned "livestock wastewater treatment tank aeration device" is configured to blow fine air downward from the lower part of the agitator so that there is no clogging and large amount of residual air is generated to enlarge the contact area with water, , And thereby producing high-quality livestock without odor by sufficiently liquefying the liquid.

The above-described conventional livestock wastewater treatment aeration apparatus has produced a good quality livestock by accelerating the composting of the livestock, thereby contributing to a certain extent to solve the environmental problem caused by the odor of the livestock. However, since the composting rate of the livelihood is slow, There is a limitation in rapid liquefaction that can meet the demand, a frequent failure due to complicated construction, and a fixed structure in a specific area in the liquid tank, so that there is a limit in evenly stirring or aeration throughout the liquid tank, It is not easy to install in a small underground storage tank having a large entrance and a small entrance, so there is a certain restriction in use.

In order to solve the above-mentioned problems, the present invention provides a micro-aeration apparatus for a micro-brewing apparatus, comprising: a micro-bubble supplying unit for supplying micro-bubbles with sufficient air to increase the contact area between the micro- , It is possible to produce high-quality livestock with most of the odor removed. It is simple in structure and low in fault frequency, and is not bulky, The present invention is intended to provide a liquid storage tank micro-aeration apparatus which is easy to install and easy to change the installation place and installation direction in the liquid tank, and can evenly stir and aerate over the liquid tank.

In order to accomplish the above object, the present invention provides a liquid storage tank micro-aeration apparatus (1), comprising a liquid mixture pumped from an underwater pump (500) and air sucked through an air intake port (111) A neck portion (pressure portion) 120 for increasing the pressure by compressing a liquid mixture sufficiently mixed with air in the mixing portion 110 and a liquid portion for increasing the pressure while passing through the neck portion 120, An ejector 100 having a tubular stem 150 welded to an end of the fallopian tube 130; One end is connected to the air intake port 111 of the mixing section 110 of the ejector 100 and the other end is exposed to the outside of the liquid storage tank and is discharged from the outside by the negative pressure generated in the mixing section 110 of the ejector 100 An intake pipe (200) for introducing air; And a submerged pump (500) for pressurizing the liquid in the liquid storage tank and pumping the liquid to the mixing unit (110) through the nozzle unit (140) of the ejector (100). The liquid storage tank micro- A porous tubular body 300 made of a synthetic resin that is interposed in the air inlet 111 of the ejector 100 and is saturated with the air to be sucked and supplied to the mixing portion 110 of the ejector 100; The ejector 100 is welded to the center of the tubular stem fixture 150 welded to the end of the tubular trunk 130 in the same direction as the tubular stem 130 to the inner side or the outer side of the tubular trunk 130, (400) for magnetizing the liquid passing through the cap magnet (400).

The ejector 100 of the liquid storage tank microalgae apparatus 1 is formed by a pipe body having a smaller diameter than the diameter of the mixing unit 110 and made of a hollow pipe body therein, And one end of the upper portion is passed through and a pipe body of a predetermined length is welded and joined to form an air inlet 111. The left end portion is welded to an inlet And the right end portion is formed in a tapered shape gradually decreasing from the right end portion of the body 113 toward the air outlet 114 and is formed into a taper shape from the submerged pump 500 to the inlet 112) and the air sucked from the intake pipe (200) are mixed with each other; The mixing unit 110 is formed of a tubular body having a predetermined diameter with a diameter smaller than the diameter of the body 113 of the mixing unit 110. The mixing unit 110 is connected to the air outlet 114 at the right end of the mixing unit 110, A neck portion (pressure portion) 120 for compressing a liquid mixture sufficiently mixed with air to increase the pressure; The left end portion is communicated with the right end portion of the neck portion 120 to be tapered to the body 131 and is formed in an enlarged structure. The right end portion is opened and the liquid portion having the increased pressure is discharged into the liquid tank through the neck portion 120 A diffusing tube (diffuser) 130; A barrel stab 150 welded to the right end of the fallopian tube 130; A safety hook 160 welded to an upper outer surface of the mixing portion 110 of the ejector 100 and an outer surface of the upper portion of the fallopian tube 130; A pedestal 170 welded and welded to the lower outer surface of the trumpet 130; The body 131 of the fallopian tube 130 is formed of a pipe body having a predetermined diameter that is larger than the diameter of the neck 120.

The length of the fallopian tube 130 is the same as the length of the mixing unit 110 and the length of the neck 120.

According to the present invention constructed as described above, the micro-bubbling apparatus of the present invention can supply sufficient air by the micro-bubbles in the liquid-storing tank to enlarge the contact area between the liquid and the air. As a result, And it is easy to install even in a low-level liquid storage reservoir which is established because the volume of the faults is low and the volume of the faults is not so low. There is provided a liquid storage tank micro-aeration apparatus capable of easily changing the installation place and the installation direction in the tank and capable of even stirring or aeration over the entire liquid tank.

1 is a perspective view of a liquid storage tank micro-aeration apparatus of the present invention.
2 is an explanatory view of an ejector of a liquid storage tank micro-aeration apparatus of the present invention.
3 is a side sectional view of the ejector of the liquid storage tank micro-aeration apparatus of the present invention.
4 is an explanatory diagram of the mixing section.
5 is an explanatory diagram of the fallopian tube.
6 is an explanatory view for explaining the porous cone.
FIG. 7 is an explanatory view for explaining the principle of liquid magnetization of the liquid storage tank micro-aeration apparatus of the present invention.
8 is an explanatory view showing the combination of an underwater pump and an ejection of a liquid storage tank micro-aeration apparatus of the present invention.
9 is an operational state diagram of the liquid storage tank micro-aeration apparatus of the present invention.
FIG. 10 is a view showing the installation state of the liquid storage tank micro-aeration apparatus of the present invention.
11 is an explanatory diagram of one embodiment of a conventional liquid storage tank aerator.

Hereinafter, the liquid storage tank micro-aeration apparatus 1 of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately Therefore, it should be understood that the embodiments described herein are merely the most preferred embodiments of the present invention, and that the technical idea of the present invention is not limited to the technical concept of the present invention, It is to be understood that various equivalents and modifications may be substituted for those at the time of filing of the present invention. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, in adding reference numerals to the constituent elements, it should be noted that the same constituent elements are denoted by the same sign and the same name as possible even if they are shown in different drawings.

2 is a side view of the ejector of the liquid storage tank micro-aeration apparatus of the present invention, and FIG. 3 is a side elevational view of the ejector of the liquid storage tank micro- Fig. 4 is an explanatory diagram of a mixing section, Fig. 5 is an explanatory view of a fallopian tube, Fig. 6 is an explanatory view for explaining a porous bead, and Fig. Fig. 9 is an operational state view of the liquid storage tank micro-aeration apparatus of the present invention, and Fig. 10 is an explanatory view showing an operation state of the liquid storage tank micro- A state in which the aeration device is installed.

1 to 10, the liquid storage tank micro-aeration apparatus 1 according to the present invention includes a liquid pump pumped from an underwater pump 500, and a liquid mixture from an intake tube 200 through an air intake port 111 A neck portion (pressure portion) 120 for compressing a liquid mixture sufficiently mixed with air in the mixing portion 110 to increase the pressure, and a neck portion (pressure portion) 120 for passing through the neck portion 120 An ejector 100 in which a tubular stem 150 is welded to an end of the fallopian tube 130, and a tubular member 130 (a diffuser) for spreading the liquid to the inside of the liquid tank is diffused. One end is connected to the air intake port 111 of the mixing section 110 of the ejector 100 and the other end is exposed to the outside of the liquid storage tank and is discharged from the outside by the negative pressure generated in the mixing section 110 of the ejector 100 An intake pipe (200) for introducing air; And a submerged pump (500) for pressurizing the liquid in the liquid storage tank and pumping the liquid to the mixing unit (110) through the nozzle unit (140) of the ejector (100). The liquid storage tank micro- A porous tubular body 300 made of a synthetic resin that is interposed in the air inlet 111 of the ejector 100 and is saturated with the air to be sucked and supplied to the mixing portion 110 of the ejector 100; The ejector 100 is welded to the center of the tubular stem fixture 150 welded to the end of the tubular trunk 130 in the same direction as the tubular stem 130 to the inner side or the outer side of the tubular trunk 130, (400) for magnetizing the liquid passing through the cap magnet (400).

As shown in FIGS. 2 to 7, the ejector 100 of the liquid storage tank microalgae apparatus 1 is formed by a pipe member having a hollow pipe member inside and smaller than the diameter of the mixing member 110, The outer surface of one end is welded to the inner diameter of the injection port 112 and the other end is made smaller and tapered. The upper end of the nozzle part 140 is passed through and welded to the air inlet The left end portion is formed into a tapered shape gradually widening from the injection port 112 to the left end portion of the body 113 and the right end portion is formed into a tapered shape gradually decreasing from the right end portion of the body 113 toward the air outlet 114 A mixer 110 for mixing a liquid mixture pumped into the inlet 112 from the underwater pump 500 and air sucked from the intake tube 200; The mixing unit 110 is formed of a tubular body having a predetermined diameter with a diameter smaller than the diameter of the body 113 of the mixing unit 110. The mixing unit 110 is connected to the air outlet 114 at the right end of the mixing unit 110, A neck portion (pressure portion) 120 for compressing a liquid mixture sufficiently mixed with air to increase the pressure; The left end portion is communicated with the right end portion of the neck portion 120 to be tapered to the body 131 and is formed in an enlarged structure. The right end portion is opened and the liquid portion having the increased pressure is discharged into the liquid tank through the neck portion 120 A diffusing tube (diffuser) 130; A barrel stab 150 welded to the right end of the fallopian tube 130; A safety hook 160 welded to an upper outer surface of the mixing portion 110 of the ejector 100 and an outer surface of the upper portion of the fallopian tube 130; A pedestal 170 welded and welded to the lower outer surface of the trumpet 130; The body 131 of the fallopian tube 130 is formed of a pipe body having a predetermined diameter that is larger than the diameter of the neck 120.

The length of the fallopian tube 130 is the same as the length of the mixing unit 110 and the length of the neck 120.

This will be described in more detail below.

The ejector is a kind of pump that injects the liquid through a nozzle at a high speed to create a low-pressure portion around the liquid, which can attract the surrounding fluid and send it to a certain place.

The ejector is simple in structure, has little breakage and failure, and is used for various purposes by a slight structural change.

2 and 3, the ejector 100 of the present invention is formed of a non-metallic material such as aluminum and includes a mixing portion 110, a neck portion (pressure portion) 120, a fall tube 130 , A nozzle portion 140, a bar magnet lock 150, a safety ring 160, and a bearing 170. [

The mixing part 110 of the ejector 100 of the present invention is formed as a pipe body having a diameter smaller than that of the mixing part 110 in the inside thereof. The outer surface of the left end is welded to the inner diameter of the injection port 112, Includes a nozzle portion 140 formed to be gradually smaller and tapered.

As shown in FIG. 4, the right end of the nozzle unit 140 generates a strong negative pressure in the mixing unit 110 by the liquid ratio discharged at a high speed from the right end, 200 to smoothly mix the sucked air and the liquid mixture discharged from the right end of the nozzle unit 140, the right end of the nozzle unit 140 is connected to the air inlet 111 As shown in Fig.

One point of the upper part of the mixing part 110 is passed through and welded to a pipe body of a predetermined length to form an air inlet 111.

The air intake port 111 is connected to a suction pipe and sucks air from the outside into the mixing unit 110.

The left end portion of the mixing portion 110 is tapered so as to be gradually widened from the injection port 112 to the left end portion of the body 113.

The right end of the mixing portion 110 is formed in a tapered shape that gradually decreases from the right end of the body 113 toward the air outlet 114.

In the mixing part 110, a liquid mixture pumped into the injection port 112 by the submerged pump 500 and air sucked through the air intake port 111 are mixed and sent to the neck part 120.

1 and 4, the neck portion (pressure portion) 120 of the ejector 100 of the present invention has a length of a pipe having a diameter smaller than the diameter of the body 113 of the mixing portion 110, And communicates with the air outlet 114 at the right end of the mixing portion 110. [

The throat 120 compresses the mixed gas 110 when the gas-liquid mixture ratio sufficiently mixed with the air passes through the mixing unit 110 to increase the pressure.

The diffuser 130 of the ejector 100 of the present invention is formed of a pipe body having a predetermined diameter and a diameter larger than that of the neck 120.

Accordingly, the liquid having a higher pressure in the neck 120 is magnetized with a high pressure in the forward direction by the fall-down pipe 130 of the pipe body, and is strongly jetted farther forward as shown in Fig. 10, So that the sludge is prevented from accumulating on the floor and hardening.

5, the left end portion of the faller pipe 130 of the ejector 100 of the present invention is connected to the right end portion of the neck portion 120 so as to be tapered to the body 131, do.

The right end of the fallopian tube 130 is opened and flows through the neck portion 120, and the liquid having the increased pressure is sprayed into the liquid tank to diffuse it.

Therefore, the fallopian tube 130 is formed at a predetermined distance from the mixing portion 110 rather than adjacent to the mixing portion 110 to form a high pressure when passing through the neck portion 120 It is preferable that the liquid is sprayed to the front far away through the fallopian tube 130 to reflux the liquid in the liquid tank.

3, the ejector 100 is rotated at a high pressure when the mixing portion 110, the neck portion 120, and the trunk tube 130 are formed to have the same length, It was found that the liquid fertilizer in the liquid storage tank can be effectively circulated by the discharged liquid.

At the right end portion of the fallopian tube 130, as shown in FIG. 2, the bar magnet stab 150 is welded.

2, the safety ring 160 is welded to the outer surface of the upper part of the mixing part 110 and the upper surface of the upper part of the fallopian tube 130, as shown in FIG.

In addition, on the lower outer surface of the trumpet 130, as shown in Fig. 2, a "c" -shaped pedestal 170 is welded.

The ejector 100 of the present invention formed as described above sucks the liquid mixture pumped through the underwater pump 500 and injected into the mixing unit 110 into the mixing unit 110 through the air inlet 111 The dissolved oxygen amount in the liquid tank is increased by injecting the magnetized liquid fuel into the liquid tank through the magnetic field generated by the bar magnet 400 welded to the rod valve 150 at the end of the fall tube 130 .

On the other hand, the intake pipe 200 of the present invention is formed of a pipe body made of a solid material such as plastic, as shown in Fig.

This is to prevent a phenomenon in which the intake tube 200 is shrunk when air is sucked from the outside due to a strong negative pressure applied to the mixing portion 110 of the ejector 100.

One end of the intake tube 200 is connected to the air intake port 111 of the mixing part 110 of the ejector 100 and the other end is exposed to the outside of the liquid storage tank.

At this time, it is also possible to artificially inject air into the intake pipe 200 by means of a blower (not shown).

Also, at this time, the air inlet 111 of the ejector 100 may be provided with a porous body 300 made of synthetic resin or the like as shown in FIG.

The air sucked through the intake tube 200 passes through the porous tubular body 300 interposed in the air intake port 111 of the mixing part 110 of the ejector 100 to generate microbubbles in the ejector 100 When the liquid is mixed with the liquid mixture through the mixing unit 110 and is discharged into the liquid storage tank through the throat 120, it passes through the magnetic field formed by the bag magnet 400 of the fallopian tube 130 and is magnetized to form smaller microbubbles .

3 and 5 to 7, the bar stool 400 of the present invention has an inner or outer side of a central portion of a barrel stab 150 coupled to an end of a fall-off pipe 130 of the ejector 100 And is welded in the same direction as the fallopian tube 130 to any one of the selected ones.

7, a plurality of ring-shaped magnets 420 are arranged in the order of NSNSNSNS in a stainless steel cylindrical housing 410, one side of which is closed and the other side of which is opened, And a cap 430 is coupled to one side of the opening so as to be formed into a rod shape as a whole.

The bar magnet 400 is formed of a magnet magnetized at 10,000 gauss to 120,000 gauss, and arranged in the order of NSNSNSNS. A magnetic field is formed between the N pole and the S pole.

For reference, it is known that water consists of two hydrogen molecules and one oxygen molecule. The hydrogen molecule has a property of attaching to the N pole and the oxygen molecule is attached to the S pole, and 15-20 molecules of water molecules are clustered .

When the magnetic force is applied perpendicularly to the direction of the water, the water molecule moves and rotates rapidly. At this time, the water molecule collides with the anions formed by the magnetic field, so that the water molecule becomes subdivided. It is activated and re-ionized to form a cluster. At this time, the number of clusters to be recombined is 5 to 6. The number of these clusters is called magnetized water (hexagonal).

It is the liquid storage tank microbubble apparatus 1 of the present invention that this phenomenon is applied to the liquid storage tank.

That is, when the fluid passes through the magnetic field of the magnet, the cluster of the water is made finer by the wave of the electron, and the surface tension is decreased, And the oxygen solubility is improved

The liquid storage tank microbubbing device 1 according to the present invention is a liquid storage tank microbubble storage device in which a gas-liquid mixture ratio of air mixed with air injected into a mixing portion 110 of an ejector 100 and sucked from an air intake port 111 passes through a fall- When the liquid is jetted into the liquid tank, the gas-liquid mixture ratio is magnetized by the influence of the magnetic field formed by the bar magnet, and when the molecular structure is finely divided and subdivided, the bubbles are further finely formed, Since the time for the bubbles to stay in the liquid is increased, the contact surface with the liquid is enlarged. As a result, as the amount of dissolved oxygen in the liquid storage tank is increased, the active activity of the microorganism is accelerated. The odor can be removed.

It is also known that the magnetized liquid fertilizer produced as described above has an excellent odor removing effect as well as an effect of reducing flies in summer.

Meanwhile, the submersible pump 500 of this embodiment employs a powerful 5-horsepower four-pole motor of 3600 rpm or more.

The liquid is pressurized by the underwater pump 500 and injected into the mixing part 110 through the nozzle part 140 of the ejector 100. [

It is a matter of course that the underwater pump 500 is provided with a wire cable for supplying power.

1 and 8, the liquid storage tank micro-aeration apparatus 1 of the present embodiment is a simple "? &Quot; structure in which the ejector 100 is coupled to the underwater pump 500, It is easy to install even in a narrow underground liquid storage tank.

With the liquid-storage tank micro-ventilation apparatus 1 of the present invention constructed as described above, sufficient air is supplied from the micro-bubbles into the liquid-storage tank, thereby enlarging the contact area between the liquid and the air. As a result, , It is possible to produce high quality livestock with most of the odors removed. It is simple in structure and low in frequency of faults, and is not bulky. It is easy to change the installation place and installation direction in the liquid tank, and it becomes possible to evenly stir and aerate the liquid tank throughout the liquid tank.

The operation of the liquid storage tank micro-aeration apparatus 1 of the present invention will be described in detail below.

If a liquid mixture pressurized by the submersible pump 500 to which power is supplied is strongly and rapidly injected into the mixing section 110 of the ejector 100 at a speed of not less than 3600 rpm, a strong negative pressure is generated in the mixing section 110, So that the air is strongly sucked.

The air sucked into the mixing part 110 through the intake pipe 200 is mixed with the liquid mixture and is pressurized by the stronger pressure while passing through the neck part 120 so that the air is injected into the liquid storage container through the fall pipe 130.

At this time, the liquid passes through the fallopian tube 130 and passes through the magnetic field formed by the bar magnet 400 welded in the same direction as the fallopian tube 130 to one of the inner and outer sides of the end of the fallopian tube 130, The surface tension is reduced, and it is broken into smaller grains, forming more minute bubbles and being ejected into the liquid storage tank.

Since the submersible motor of this embodiment is a powerful 5 horsepower 4-pole water motor of 3600 rpm or more, the liquid ratio in the liquid storage tank is jetted by more than 6 meters. At this time, the strong liquid discharge power causes the inside of the liquid storage tank to be entirely refluxed to prevent the sludge from sticking to the floor In addition, the sludge already attached to the floor is floated and refluxed together. Therefore, the rapid growth of microorganisms and vigorous activity are promoted in the liquid storage tank due to the increase of the dissolved oxygen amount in a short time, Removed.

That is, in the liquid storage tank micro-aeration apparatus 1 of the present invention, micro-aeration and stirring occur at the same time, and water particles are finely divided while passing through a magnetic field formed by the bar magnet 400 of the fallopian tube 130, Therefore, since the amount of dissolved oxygen in the liquid is increased due to a large amount of water and the contact surface, the composting of the liquid is promoted by the vigorous activity of the microorganism, so that it is possible to produce a high quality liquid with most odors removed.

Livestock farmers will distribute these high quality livestock crops to the seedling farms, and the seedling farmers will be able to increase the agricultural productivity at low cost by spraying them on the farmland during the growing season.

Although the preferred embodiment of the liquid storage tank micro-aeration apparatus 1 according to the present invention has been described above, the present invention is not limited thereto, but may be modified in various ways within the scope of the claims, the detailed description of the invention, It is to be understood that the same is within the scope of the present invention.

1 Liquid storage tank Microaerator
100 ejector
110 mixing portion 111 air inlet 112 inlet 113 body 114 outlet
120 Throat 130 Blower (diffuser) 131 Body 140 Nozzle part 150 Bottom stopper 160 Safety hook 170 Pedestal
200 intake tube
300 porous structure
400 Porcelain stones 410 Housing 420 Ring type magnet 430 caps
500 water pump

Claims (3)

A mixer 110 for mixing a liquid mixture pumped from the underwater pump 500 and air sucked through the air intake port 111 from the intake tube 200; A neck portion (pressure portion) 120 for increasing the pressure by compressing the liquid and a tubular pipe (diffuser) 130 for spraying the liquid mixture having the increased pressure while passing through the neck portion 120 into the liquid tank, An ejector (100) welded to an end of the fallopian tube (130) to which a seal rod (150) is welded; One end is connected to the air intake port 111 of the mixing section 110 of the ejector 100 and the other end is exposed to the outside of the liquid storage tank and is discharged from the outside by the negative pressure generated in the mixing section 110 of the ejector 100 An intake pipe (200) for introducing air; And a submerged pump (500) for pressurizing the liquid in the liquid storage tank and pumping the liquid to the mixing unit (110) through the nozzle unit (140) of the ejector (100). The liquid storage tank micro- A porous tubular body 300 made of a synthetic resin that is interposed in the air inlet 111 of the ejector 100 and is saturated with the air to be sucked and supplied to the mixing portion 110 of the ejector 100; The ejector 100 is welded to the center of the tubular stem fixture 150 welded to the end of the tubular trunk 130 in the same direction as the tubular stem 130 to the inner side or the outer side of the tubular trunk 130, Further comprising a cap magnet (400) magnetizing the liquid passing through the liquid storage tank. The liquid ejecting apparatus as claimed in claim 1, wherein the ejector (100) of the liquid storage tank micro-aerator is formed as a pipe body having a diameter smaller than the diameter of the mixing unit (110) And a right end of the nozzle unit 140 is tapered. One end of the upper portion of the nozzle unit 140 is communicated with a pipe body of a predetermined length so as to be welded to form an air inlet 111, And the right end portion is formed in a tapered shape gradually decreasing from the right end portion of the body 113 toward the air outflow port 114 and the right end portion is formed in a taper shape from the submerged pump 500 A mixer 110 for mixing a liquid mixture pumped into the inlet 112 and air sucked from the intake tube 200; The mixing unit 110 is formed of a tubular body having a predetermined diameter with a diameter smaller than the diameter of the body 113 of the mixing unit 110. The mixing unit 110 is connected to the air outlet 114 at the right end of the mixing unit 110, A neck portion (pressure portion) 120 for compressing a liquid mixture sufficiently mixed with air to increase the pressure; The left end portion is communicated with the right end portion of the neck portion 120 to be tapered to the body 131 and is formed in an enlarged structure. The right end portion is opened and the liquid portion having the increased pressure is discharged into the liquid tank through the neck portion 120 A diffusing tube (diffuser) 130; A barrel stab 150 welded to the right end of the fallopian tube 130; A safety hook 160 welded to an upper outer surface of the mixing portion 110 of the ejector 100 and an outer surface of the upper portion of the fallopian tube 130; A pedestal 170 welded and welded to the lower outer surface of the trumpet 130; Wherein the body 131 of the fallopian tube 130 is formed of a pipe body having a predetermined diameter that is greater than the diameter of the neck 120. The liquid storage tank micro- Micro-aeration device. 3. The apparatus of claim 2, wherein the length of the fallopian tube (130) is the same as the length of the mixing part (110) and the length of the neck part (120).

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