KR20180026238A - Nano-bubble generator - Google Patents

Abstract

The present invention relates to a nano-bubble generator comprising a nano-bubble generation means, wherein collision and pressure are applied to mixed air when the mixture of water and air flows, thereby micronizing the mixture into a nano-size to generate nano-bubbles, so that efficiency of nano-bubble generation is enhanced and productivity is increased through simplification and miniaturization of a structure thereof to achieve economic benefit. According to the present invention, the generation means has a transfer channel through which the mixture is transferred and applies a collision load and transfer pressure to the mixture to generate nano-bubbles. The generation means includes: colliding bodies disposed to have intervals therebetween to be perpendicular to a transfer direction of the mixture and having penetration holes formed on one portion thereof for allowing the mixture to flow while passing therethrough; and ring-shaped lattice rings interposed between the colliding bodies to form transfer spaces for the mixture between the colliding bodies. The colliding body is composed of: a board-shaped main body having the penetration hole on one portion thereof; and a porous net disposed on a side of the main body and having a plurality of through-holes.

Description

Nano-bubble generator

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a nano bubble generating device for generating nano bubbles which are micro bubbles having a diameter of nano units, and more particularly, The nano bubbles are generated by miniaturizing the nano bubbles by applying pressure to the nano bubbles, thereby improving the generation efficiency of the nano bubbles, increasing the productivity through structural simplification and miniaturization, .

In general, nano bubbles are microscopic air bubbles that can not be seen by eyes. They are 1 / 2,000 size of normal bubbles and are minute air pores of skin pores less than 25 μm. When they disappear, 1) 40KHz ultrasonic waves are generated. 2) And 3) an instantaneous high temperature of 4,000 to 6,000 degrees is generated.

That is, the normal bubbles rise in the water and rupture at the surface, but the nano bubbles are reduced by the pressure in the water and generate various energy and disappear.

Such a nano bubble occurs when the water and the air are vigorously rotated by the ultra-fine bubble.

Such nano bubbles have been utilized in various fields by physical and chemical characteristics such as "gas dissolving effect, self-pressurizing effect, and charging effect". In recent years, the nano bubbles have been used for various aquaculture and hydroponics, In medical field, it is used for precision diagnosis, and in various fields, it is used in physical therapy, high-purity water treatment, environment device and the like.

In other words, the field of use is wide ranging from hot spring bath to cancer diagnosis, it is known that it has excellent sterilization effect as well as regenerating skin.

The nano bubbles are generated by various methods such as a circulating liquid flow type, a state liquid type, an ejector type, a vanishing type, a pressure dissolving type, an ultrasonic type, an electrolysis type, and a micro pore filter type.

In order to generate nano bubbles through the various types of nano bubble generating devices, nano bubbles are generated by converting a gas into a fine nano-bubbles by supplying a liquid (supply water) mixed with a gas.

The process of converting the supply water to the microfluidic system is performed through the process of separating and compressing the supply water containing the bubbles while passing through the micropilot of the generation means provided with the microfilm.

As described above, Korean Patent Registration No. 10-1146040 (name: a nano bubble generator) is one of the nano bubble generating devices for generating nano bubbles. The nano bubble generating device, as described in the publication, A bubble generation chamber provided with a water inlet port through which water is introduced and an air inlet port through which air is introduced and a discharge port through which air is introduced; a water supply port provided between the water inlet port and the air inlet port and the discharge port of the bubble generation chamber, And a plurality of induction holes through which water introduced through the air inlet is guided, and a plurality of induction holes for guiding water and air introduced through the induction hole in the outward direction, And a plurality of stirring pieces protruded in the direction of the rotating disk to stir the water and air according to the rotation of the rotating disk It consists of a disc information.

As a result, water and air are stirred while being frictioned with the agitating pieces, and friction between the agitating pieces is made while passing through the jig jack. Therefore, water and air are strongly stirred and pressed at the same time.

Such a shock-type micro-bubble generator requires a high pressure of 5 to 20 bar, has a large flow loss, requires a large number of nozzles and a large-volume mixing tank, thereby complicating the structure and equipment of the apparatus .

On the other hand, in the apparatus for generating fine bubbles in the circulating liquid flow system, as in the impact type nozzle system, a mixed water in which water and air are mixed is transferred through the space in the form of a vortex, And the nano bubbles are generated by the vortex pressure generated while the mixed water is formed while forming the vortex flow.

However, such a circulating liquid flow type micro-bubble generating apparatus has a problem that a micro-bubble can not be generated through a single nozzle, a high pressure is required, and a bulky mixing tank is required.

1. Korean Patent Registration No. 10-1146040

Disclosure of the Invention The present invention has been proposed in order to solve the problems of the conventional nano bubble generating devices as described above, and it is an object of the present invention to provide a nano bubble generating device in which mixed air, To generate nano bubbles, thereby improving the generation efficiency of nano bubbles. In addition, a nano bubble generator capable of realizing economical benefits by increasing productivity through structural simplification and miniaturization .

In order to accomplish the above object, the present invention provides a nano bubble generator comprising generating means for generating nano bubbles by applying a collision load and a transfer pressure to the mixed water with a transfer passage through which mixed water is transferred Wherein the nano bubble generating device comprises: The generating means may include a plurality of collision bodies arranged with a gap in a direction orthogonal to a direction in which the mixed water is conveyed, And a 'rimg' shaped lattice rings arranged at intervals between the impact bodies to form a transfer space for the mixed water between the impact bodies; The above-mentioned colliding body includes: a body having a shape of 'board' formed with a through hole at one portion; And a porous net disposed on a side surface of the main body and having a plurality of through holes.

In the nano bubble generating device according to the present invention as described above, the transfer pressure is applied to the inside of the generating means while passing through the transfer passage formed at the interval between the impact bodies in the process of moving the mixed water in which water and air are mixed, The collision load is applied to the collision object by colliding with the mesh network disposed on the surface of the collision object, and the nano bubbles are generated by refining the air mixed with the mixed water in the nano-scale to improve the generation efficiency of the nano bubble.

In addition, since the structure of the single impact object is composed of the main body and the multi-network structure in which the main body is disposed on the side of the main body, it is possible to realize economical benefits by increasing the productivity by implementing the structure simplification and miniaturization.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a nanobubble generator according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic illustration showing an example of generating means applied to the nano bubble generator according to the embodiment. Fig.
Fig. 3 is a schematic partial schematic view showing a generation means applied to the nano bubble generator according to the present embodiment. Fig.
FIG. 4 is a schematic illustration of a part of a nanobubble generator according to another embodiment of the present invention. FIG.

Hereinafter, a nano bubble generator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 3 are views showing a nano bubble generating device according to an embodiment of the present invention. In the nano bubble generating device 1 according to the present embodiment, mixed water of water and air is introduced from the outside During the conveyance, collision and pressure are applied to refine the mixed air to generate nano bubbles and discharge.

The nano bubble generator 1 according to the present embodiment has a transfer passage for transferring mixed water of water and air from the outside and applying a collision load and a transfer pressure to the mixed water to generate nano bubbles (2).

That is, during the movement of the mixed water in the generating means 2, the collision is repeated, and at the same time, the shear pressure is applied while passing through the narrow conveyance passage, and the air contained therein is refined and nano bubbles are generated.

In the nano bubble generator 1 according to the present embodiment as described above, the generating means 2 is arranged with a gap in a direction orthogonal to the feeding direction of the mixed water, (22) in which a through hole (21) for allowing the water to pass therethrough is formed; And a 'ring' shaped lattice rings 23 provided at the intervals between the impact bodies 22 to form a transfer space for the mixed water between the impact bodies 22.

That is, the impact bodies 22 are arranged in parallel with each other with the space therebetween through the grating ring 23 so that the mixed water supplied from the outside collides with the surfaces of the impact bodies 22, Through the through hole (21).

At this time, the nano bubbles are generated by receiving the transfer pressure while passing through the transfer passages formed at the intervals of the impact bodies 22.

The distance between the colliding bodies 22 is adjusted according to the thickness of the grating ring 23 so that the interval between the colliding bodies 22 is selected by arbitrarily selecting the thickness of the grating ring 23, . ≪ / RTI >

It is preferable that the lattice ring 23 is made of an elastic material so as to be hermetically sealed with respect to the distance between the impact bodies 22, and it is most preferable that the lattice ring 23 is made of a rubber material.

It is preferable that the through holes 21 are formed at positions displaced in one direction from the center of the impact body 22 and when the plurality of the impact bodies 22 are arranged in connection with each other, It is most preferable to be disposed at a position deviated with respect to the position of the through hole 21 formed in the other impact bodies 22.

At this time, it is preferable that the through holes 21 are symmetrical with respect to the positions of the through holes 21 at adjacent positions, respectively, at positions which are opposed to each other about the center of the impact body 22.

Accordingly, it is most preferable to move in the zigzag direction when passing the gap between the through holes 21 and the impact bodies 22 while the mixed water moves.

The through holes 21 are formed in the shape of an arcuate shape centering on the center of the impact body 22 with respect to the center of the impact body 22 with respect to the positions of the through holes 21 at the adjacent positions, It is most preferable that the mixed water is moved in the spiral direction when passing the gap between the through holes 21 and the impact bodies 31. [

Accordingly, it is preferable that the shear pressure applied to the mixed water is increased to improve the generation efficiency of the nano bubbles.

The apparatus for generating nano bubbles 1 according to this embodiment includes a pipe 31 having an inlet 31 for receiving mixed water of water and air from the outside and an outlet 32 for discharging mixed water, It is preferable to arrange it in the inside of the tube body 3 of the shape.

That is, it is fixed in the tubular body 3 and receives the mixed water flowing through the inlet 31 to generate nano bubbles while discharging it to the outlet 32.

The tubular body 3 is preferably formed of a circular tube having a hollow tube at both ends and having a circular shape in cross section, So as to facilitate connection and connection with other components.

In the nano bubble generator 1 according to the present embodiment as described above, the impact body 22 has a "board" shaped body 24 having a through hole 21 formed at one portion thereof )Wow; And a polygonal network 25 disposed on a side surface of the body 24 and having a plurality of through holes.

That is, the mixing water is further refined by the irregularities of the porous net 25 while the mixed water collides with the main body 24 and is subjected to the impact pressure.

As a result, the nano bubble generation efficiency is improved.

In this case, it is preferable that the polygonal network 25 is formed of a net having a net shape formed of a metal material, and the main body 24 is most preferably formed of a metal material.

That is, it is preferable that the main body 24 and the polygonal network 25 are disposed in close contact with each other, and the main body 24 and the polygonal network 25 are most preferably welded together Do.

As shown in FIG. 3, the polygonal mesh 24 is preferably formed of a net that is formed so that the intersecting portions protrude and protrude outward.

4, the porous network 25 is disposed on both sides of the main body 24, and the mixed water is discharged from both sides of the main body 24 It is preferable that the collision load is applied through the net 24.

Hereinafter, the operation and effect of the nano bubble generator 1 according to the present embodiment will be described in detail.

First, when the mixed water mixed with water and air flows into the inlet 31 of the tube 3 with a predetermined pressure through an unillustrated inlet pipe and a pump, And is conveyed while sequentially passing through the colliding bodies (22) constituting the means (2).

At this time, the air contained in the mixed water collides with the impact body 22 and becomes fine. At the same time, the through holes 21 are conveyed while passing through in a zigzag or spiral direction, .

When the mixed water mixed with water and air flows into the through hole 21 of the impact body 22 positioned at the best end with a predetermined pressure through an unillustrated inlet pipe and a pump, Through the through holes 21 and through the space between the lattice impact bodies 22 to pass through the through holes 21 of the colliding body 22 located at the last position, (21).

At this time, air contained in the mixed water is refined while colliding with the porous network 25, and the through holes 21 are conveyed while passing through in a zigzag or spiral direction, Bubbles are generated.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1: Generator 2: Generator
21: through hole 22: collider
23: Grid ring 24: Body
25: Network 3: Tubular body
31: inlet 32: outlet

Claims (1)

And generating means for generating a nano bubble by applying a collision load and a transfer pressure to the mixed water with a transfer passage through which mixed water is transferred, the apparatus comprising:
The above-
A plurality of collision bodies disposed in a direction orthogonal to a direction in which the mixed water is conveyed and having through holes for allowing the mixed water to pass therethrough; And a 'rimg' shaped lattice rings arranged at intervals between the impact bodies to form a transfer space for the mixed water between the impact bodies;
The above-
A plate-shaped main body having the through-hole formed at one side thereof; And a porous network disposed on a side surface of the main body and having a plurality of through holes formed therein.

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