KR101157713B1 - Underwater nano bubble occurrence system - Google Patents

Abstract

The present invention relates to an underwater nanobubble generating device, and more particularly, nano-size pores are formed, the nanofilm disposed inside the tank; It relates to an underwater nanobubble generating device comprising a; compressed air generating unit for generating nanobubbles by passing the compressed air through the nanofilm.

The present invention configured as described above increases the amount of dissolved oxygen in the water because nano-bubbles are generated by passing compressed air discharged from the compressed air generator through the nano-film disposed inside the tank in a state where nano-sized pores are formed. In addition, the dissolved oxygen can be maintained in a saturated state for a long time, and there is no need to continuously exchange oxygen cylinders, and the initial installation cost is low, and the structure is simple, so the maintenance cost is low.

Nano film, compressed air generator

Description

Underwater Nanobubble Generator {UNDERWATER NANO BUBBLE OCCURRENCE SYSTEM}

The present invention can increase the amount of dissolved oxygen in the water, can maintain the increased amount of dissolved oxygen in a saturation state for a long time, there is no hassle of constantly changing the oxygen cylinder, the initial installation cost is low, and the structure is simple The present invention relates to an underwater nanobubble generator having low maintenance cost.

In general, a method of generating nanobubbles by generating nanobubbles in a vacuum state or rotating a propeller in order to generate nanobubbles in water has been mainly utilized.

However, the conventional method has a problem that not only takes a lot of initial installation cost but also generates a lot of energy cost, and also a large maintenance cost due to the complicated structure.

In addition, when compressed oxygen is injected into the water at high pressure to increase the amount of dissolved oxygen, dissolved oxygen cannot be easily increased, and there is a need to continuously exchange oxygen cylinders to continuously spray compressed oxygen.

Therefore, the present inventors can increase the amount of dissolved oxygen in the water, can maintain the increased amount of dissolved oxygen in a saturated state for a long time, there is no hassle of constantly changing the oxygen tank, and the initial installation cost is low and the structure The present invention proposes an underwater nanobubble generator having a simple maintenance cost.

The present invention has been created to solve the above problems, it is possible to increase the amount of dissolved oxygen in the water, to maintain the increased dissolved oxygen amount in a saturated state for a long time, and the hassle of constantly changing the oxygen cylinder It is an object of the present invention to provide an underwater nanobubble generating device having low initial installation cost and simple structure and low maintenance cost.

The present invention for achieving the above object is a nano-size pores are formed, and the nano-film disposed in the tank; It provides an underwater nanobubble generating device comprising a; compressed air generating unit for generating a nanobubble by passing the compressed air through the nanofilm.

Here, the compressed air generating unit and the nanofilm is preferably provided with a filter for filtering foreign matter contained in the compressed air discharged from the compressed air generating unit.

In addition, the compressed air generating unit and the filter is preferably provided with a constant pressure air control unit for adjusting the pressure of the compressed air discharged from the compressed air generating unit to a constant pressure.

In addition, it is preferable that the nano film is provided at an open upper portion, and a compressed air inlet formed at one side of the compressed air inlet through which compressed air discharged from the compressed air generating unit is introduced is provided in the tank.

In addition, the present invention provides an automatic water supply device comprising a nanobubble generator underwater.

The present invention can increase the amount of dissolved oxygen in the water because nano-bubbles are generated by passing the compressed air discharged from the compressed air generator through the nano-film disposed inside the tank in the form of nano-sized pores, The dissolved oxygen can be maintained in a saturated state for a long time, and there is no hassle of continuously changing the oxygen cylinder, and the initial installation cost is low, and the structure is simple, so the maintenance cost is low.

And, since the filter provided between the compressed air generating unit and the nanofilm filters foreign substances contained in the compressed air discharged from the compressed air generating unit, the nanofilm is formed while the compressed air passes through the nanofilm. There is no fear of breakage, of course, there is an effect that can be generated more easily nanobubbles.

In addition, since the positive pressure air control unit provided between the compressed air generating unit and the filter adjusts the pressure of the compressed air discharged from the compressed air generating unit to the static pressure, it is possible to easily generate nanobubbles, as well as nano. By preventing the generation of bubbles larger than the bubble, not only the amount of dissolved oxygen can be prevented from being reduced, but the nanofilm can be used for a long time.

In addition, the compressed air inlet is formed in the inside of the water tank is provided with the nano-film on the upper portion formed, the compressed air inlet through which the compressed air discharged from the compressed air generating unit on one side is provided in the compressed air By passing the nanofilm more easily, there is an effect that can generate the nanobubbles more smoothly.

In addition, since the automatic water supply device is made of a nanobubble generator underwater, by generating a nanobubble, there is an effect that can quickly quantitatively feed water in the state of increased dissolved oxygen in farms or houses.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

1 is a schematic view showing an underwater nanobubble generating device according to an embodiment of the present invention.

Underwater nanobubble generating device according to an embodiment of the present invention is large, as shown in Figure 1, comprises a nano film 10 and the compressed air generating unit 20.

First, the nanofilm 10 is disposed inside the water tank 8, whereby nano-sized pores are formed.

The nanofilm 10 may be polyethylene, polypropylene, polyurethane, or the like. Preferably, water molecules, especially 0.2 micro water molecules, are not permeable, and less than 70 nm of pores may be permeable to air. It is better to use polyethylene formed.

The nanofilm 10 may be provided in a state in which the edge contact the lower portion of the inner wall of the tank 8, but is not necessarily limited thereto.

The compressed air generator 20, such as an oilless compressor, is used to generate nanobubbles by passing compressed air through the nanofilm 10.

At this time, the compressed air generating unit 20 is preferably provided outside the water tank (8) in order to more easily pass the compressed air through the nano-film (10).

Since the compressed air discharged from the compressed air generator 20 passes through the nanofilm 10, nanobubbles are generated in the water, thereby increasing the amount of dissolved oxygen in the water contained in the tank 8. As a result, the dissolved oxygen can be maintained in a saturated state for a long time.

In other words, it is possible to maintain the increased dissolved oxygen in a saturated state for up to 5 days.

Next, the compressed air inlet 50 is provided with the nano film 10 formed on the open upper portion, and the compressed air inlet 510 for introducing the compressed air discharged from the compressed air generator 20 on one side thereof. As shown in Figure 1 is preferably provided inside the water tank (8).

More specifically, the compressed air discharged from the compressed air generating unit 20 in the state that the water (9) is accommodated in the water tank (8) through the compressed air inlet (510) the compressed air inlet (50) At the same time as passing through the nanofilm 10, nanobubbles are generated in the water.

The compressed air inlet 50 is provided with the nanofilm 10 formed on the upper portion formed as described above, and the compressed air inlet 510 for introducing compressed air discharged from the compressed air generator 20 on one side thereof. Since the compressed air is more easily passed through the nanofilm 10 because the inside of the water tank 8 is provided, there is an advantage that the nanobubbles can be more smoothly generated.

Next, between the compressed air generating unit 20 and the nanofilm 10, a filter 30 for filtering foreign matter contained in the compressed air discharged from the compressed air generating unit 20 as shown in FIG. ) Is preferably provided.

As described above, the filter 30 provided between the compressed air generator 20 and the nanofilm 10 filters foreign matter contained in the compressed air discharged from the compressed air generator 20. There is no fear that the nanofilm 10 may be broken while air passes through the nanofilm 10, and thus, the nanobubbles may be more easily generated.

Next, between the compressed air generating unit 20 and the filter 30, a constant pressure air adjusting unit 40 such as a regulator for regulating the pressure of the compressed air discharged from the compressed air generating unit 20 to a static pressure It is good to be provided.

In this way, since the positive pressure air adjusting unit 40 provided between the compressed air generating unit 20 and the filter 30 adjusts the pressure of the compressed air discharged from the compressed air generating unit 20 to the static pressure. Not only can the nanobubbles be generated more easily, but also larger bubbles than the nanobubbles can be prevented from being generated, thereby reducing the amount of dissolved oxygen as well as allowing the nanofilm 10 to be used for a long time. There is this.

On the other hand, the present invention can be used in farms and barns or industrial sites, but is not necessarily limited thereto.

As described above, the present invention provides nanobubbles by passing compressed air discharged from the compressed air generator 20 through the nanofilm 10 disposed inside the tank 8 in a state where nano-sized pores are formed. It can increase the amount of dissolved oxygen in the water, keep the increased dissolved oxygen in saturation for a long time, there is no hassle of constantly changing the oxygen cylinder, the initial installation cost is low, and the structure Simple and low maintenance costs.

Hereinafter, the underwater nanobubble generating device of the present invention will be described in detail with reference to Examples and Comparative Examples.

[Example]

Underwater nanobubble generating device was manufactured by using polyethylene nanofilm, oilless compressor and regulator with area of 0.3m ² and water tank capable of accommodating 100L of water. The regulator was used to adjust the compressed air of kg / cm ² , and the water and foreign substances contained in the compressed air discharged from the oilless compressor through the filter was filtered. The size of the nanobubbles generated through the polyethylene nanofilm was measured as 410 ~ 540nm.

[Comparative Example]

As a comparative example, N company's nanobubble generator was used, which rapidly turns the injected water in a vacuum region to generate nanobubbles instantaneously by rapidly increasing flow rate and spiral energy movement of water.

[Experimental Example 1]

Nanobubbles were generated in 100 L of water using the nanobubble generators of Examples and Comparative Examples, respectively, and the time at which dissolved oxygen of water reached saturation was measured three times within 120 minutes. Same as 1.

[Table 1] Measurement result of dissolved oxygen saturation time

Example Comparative example
Dissolved Oxygen Saturation Time

1 minute
More than 20 minutes

As described above, the time for reaching the dissolved oxygen saturation state of the water of the example was measured to be 1 minute, and the time to reach the dissolved oxygen saturation state of the water of the comparative example was determined to be more than 20 minutes.

It is thought that the 410-540 nm sized nanobubbles generated in the water of the above example accelerated the dissolved oxygen of the water of the example to reach saturation state, which is significantly shorter than the time of reaching the dissolved oxygen saturation state of the comparative example water. .

[Experimental Example 2]

The water treated by the nanobubble generator in the embodiment of the tomato cultivation was once irrigation once a day when cultivating the tomato, at this time the nutrient solution was supplied with water (treatment). And irrigation was carried out in the same manner as the treatment using water that was not treated by the nanobubble generating device of the embodiment, wherein the nutrient solution was supplied simultaneously with the water (control). The yield and freshness retention period of the treatment and control were 20% higher than those of the control and control, and the freshness retention also increased by 1 ~ 2 days compared to the control.

[Experimental Example 3]

The water treated by the underwater nanobubble generator of the embodiment was sprayed once a day on a seed germination plate sprayed with lettuce seeds to germinate the lettuce seeds (treated). Then, the water not treated by the nanobubble generator of the embodiment was sprayed in the same manner as the treatment tool to germinate lettuce seeds (control). The germination efficiency and germination period of the treatment and control were compared with those of the control and the germination efficiency was more than 30%, and the germination period was also reduced by 50%.

And after 72 hours, the photographs of the lettuce seed germination state of the treatment and control were as shown in Figs. As shown in Figures 2 and 3 it was confirmed that the germination state of the lettuce seed of the treatment is very superior to the control.

1 is a schematic view showing an underwater nanobubble generating device according to an embodiment of the present invention,

2 is a photograph of the lettuce seeds germinated after 72 hours of the treatment of Experimental Example 3,

Figure 3 is a photograph of the lettuce seeds germinated after 72 hours of the control of Experimental Example 3.

*** Explanation of symbols for main parts of drawing ***

8: tank, 9; water,

10; Nanofilm, 20; Compressed air generator,

30; Filter, 40; Static pressure air regulator,

50; Compressed air inlet, 510; Compressed air inlet

Claims (5)

Nano-film pores are formed, the nano-film disposed inside the tank; And a compressed air generator for generating nanobubbles by passing compressed air through the nanofilm. Between the compressed air generating unit and the nano-film is provided with a filter for filtering foreign matter contained in the compressed air discharged from the compressed air generating unit, Between the compressed air generating unit and the filter is provided with a constant pressure air control unit for adjusting the pressure of the compressed air discharged from the compressed air generating unit to a constant pressure, The nano-bubble is formed on the open top, and the compressed air inlet is formed in the inside of the tank, the compressed air inlet is formed on one side of the compressed air inlet through which the compressed air discharged from the compressed air generating unit is introduced Device. delete delete delete delete

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