KR20160068524A - Rotary type micro bubble forming apparatus - Google Patents

Abstract

The present invention relates to a rotary type microbubble forming apparatus which has a simple structure to be easily manufactured, and particularly, is capable of being directly inserted into a tank without any tools such as a pipe and a pump to be easily used so the utilization is high. A rotary type microbubble forming apparatus according to the present invention includes: an impeller including a circular plate formed at the center thereof with a through-hole, and a plurality of blades installed in perpendicular to the circular plate and radially disposed while being spaced apart from each other; a circular plate shaped cover formed at one side of the impeller and disposed to make contact with upper ends of the blades; a hollow tube member; an impeller coupling connecting the impeller to one end of the tube member; and a coupling formed on the other end of the tube member to be connected to a driving unit.

Description

[0001] The present invention relates to a rotary micro bubble forming apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary micro bubble device, and more particularly, to a rotary micro bubble device capable of forming micro and nano bubbles with a simple structure using a rotating impeller.

In general, micro bubbles are ultra-fine bubbles of 5 μm or less and generate 1 / 2,000 particles of general bubbles. When they disappear, they generate ultrasonic waves and generate a high sound pressure of 140 db. .

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

Such microbubbles are mainly generated when water and air are vigorously rotated. Such microbubbles are utilized in various fields due to physical and chemical properties such as gas dissolution effect, magnetic pressure effect, and charging effect, and in recent years Fishery, and agriculture, and is used in various fields such as physiotherapy, high-purity water treatment, environmental devices, and the like.

As an example of such a device for generating microbubbles, Korean Registered Patent No. 10-1071461 (Oct. 10, 2011) discloses a device for generating a microbubble by applying a rotational force to a fluid using a rotating stirring member to be.

However, such a conventional technique has a problem in that a driving means having a large driving force is required to form a fluid to be introduced and discharged, and a device for requiring a separate piping is complicated.

Korean Registered Patent Publication No. 10-1071461 (issued October 10, 2011)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a rotary micro bubble device which is easy to manufacture with a simple structure and which can be easily used by being directly inserted into a tank or the like without any separate piping, The purpose is to provide.

It is another object of the present invention to provide a rotary micro bubble device which is excellent in the effect of generating micro bubbles and has little energy consumption and does not cause a failure.

As means for solving the above problems, the rotary micro bubble device of the present invention is characterized in that,

An impeller comprising a circular plate having a through hole at its center and a plurality of blades disposed perpendicularly to the circular plate on one side of the circular plate,

A cover in the form of a disk, which is disposed on one side of the impeller and is disposed in contact with the upper ends of the plurality of blades,

Hollow tube,

An impeller coupling connecting the impeller and one end of the tubular body,

And a coupling formed at the other end of the tube and connected to the driving means.

And the blade,

A parallel portion positioned near the outer periphery of the circular plate and having a constant height,

And an inclined portion located on the inner side of the parallel portion and gradually decreasing in height toward the center.

The outer surface of the blade is located on the same line as the outer surface of the disk,

The area where the blade is installed on one side of the disk is inclined toward the outside, and the thickness of the disk is gradually decreased toward the outside.

In the impeller coupling,

And an insertion hole through which the tubular body is inserted,

A tapered portion provided on the tubular body side and having an outer diameter gradually increasing toward the opposite side of the tubular body,

A diameter-enlarged portion formed in contact with the tapered portion and engaged with the other side surface of the disk of the impeller,

An insertion portion formed in contact with the enlarged diameter portion and having a relatively small outer diameter as compared with the enlarged diameter portion and inserted into the through hole of the impeller disk,

A protruding portion formed in contact with the insertion portion and located inside the blade of the impeller,

And an air inlet formed at the end of the protruding portion and formed as a 'ten' shape.

And the coupling comprises:

Tube,

A tube insertion portion formed at one side of the tubular body,

A bolt hole formed perpendicular to the tubular insertion portion,

A drive shaft insertion portion formed on the other side and into which the rotation shaft of the drive means is inserted,

The tubular insertion portion and the driving shaft insertion portion may include a plurality of through holes formed at regular intervals in the connection portion,

And a slit formed on the tube insertion portion side.

The rotary micro bubble generator of the present invention is simple in structure and easy to manufacture, and can be easily used by being directly inserted into a tank without equipment such as a separate pipe or pump, It is advantageous in that the generation effect is excellent and the energy consumption is small and there is no occurrence of trouble and the maintenance is easy.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the entirety of a rotary micro bubble generator according to the present invention; FIG.
2 is a view showing an impeller of a rotary micro bubble device according to the present invention.
3 is a view showing a cover of a rotary micro bubble device according to the present invention.
4 is a view showing an impeller coupling of a rotary micro bubble device according to the present invention.
5 is a view showing a coupling of a rotary micro bubble device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of a rotary micro bubble generator according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing an impeller of a rotary micro bubble generator according to the present invention. FIG. 3 is a sectional view of the rotary micro bubble generator according to the present invention. FIG. 4 is a view showing an impeller coupling of a rotary micro bubble device according to the present invention, and FIG. 5 is a view showing a coupling of a rotary micro bubble device according to the present invention.

1, a rotary micro bubble generator according to the present invention includes an impeller 10, a cover 20, a tubular body 30, an impeller coupling 40, a coupling 50, And the like.

2, the impeller 10 includes a circular plate 12 having a through hole 11 formed at the center thereof, and a circular plate 12 vertically coupled to the circular plate 12 at one side of the circular plate 12, And is composed of a plurality of blades (13) arranged in a radial manner while maintaining a constant interval.

The blade 13 includes a parallel portion 13 'positioned at the periphery of the circular plate 12 having a constant height and an inclined portion 13' located at an inner side of the parallel portion 13 ' The outer surface of the blade 13 is located on the same line as the outer circumferential surface of the circular plate 12 and the area where the blade 13 is installed on one side of the circular plate 12 is located outside And the thickness of the circular plate 12 is gradually decreased toward the outside. The cross sectional area of the air supplied is enlarged and a negative pressure is formed, thereby allowing air to flow and also to promote air inflow .

3, the cover 20 is a disc-shaped member formed on one side of the impeller 10 and disposed so as to be in contact with the upper ends of the plurality of blades 13, It is preferable that the outer diameter of the outer tube 12 is the same as that of the outer tube.

The tubular body 30 is a hollow tube-shaped member and serves to transmit power from the driving means to the impeller 10 and to supply air through the inside thereof.

Therefore, it is preferable that the tubular body 30 is provided with an air inflow hole so that air can be introduced.

4, the impeller coupling 40 is a member for connecting the impeller 10 and one end of the tubular body 30, and has an insertion hole 41 into which the tubular body 30 is inserted at the center, Respectively. Specifically, the impeller coupling 40 includes a tapered portion 42 provided on the tube body 30 side and having an outer diameter gradually increasing toward the opposite side of the tube body 30, a tapered portion 42 formed in contact with the tapered portion 42, (43) having a diameter smaller than that of the enlarged diameter portion (43) and being in contact with the enlarged diameter portion (43) and having a diameter smaller than that of the impeller (10 An insertion portion 44 inserted into the through hole 11 of the disk 12, a projection 45 formed in contact with the insertion portion 44 and located inside the blade 13 of the impeller 10, And an air introducing part 46 formed at the end of the protruding part 45 and formed as a 'ten' shape.

The coupling between the impeller coupling 40 and the impeller 10 is such that a plurality of bolts penetrate the holes formed inside the blades 13 of the impeller 10 and are formed in the enlarged portion 43 of the impeller coupling 40 Screwed to the female screw.

The coupling between the impeller coupling 40 and the tubular body 30 is primarily accomplished by fitting the tubular body 30 to the impeller coupling 40 and the insertion portion 44 of the impeller coupling 40, And the pinhole 47 formed in the tubular body 30 is inserted through the pin.

A fixing device is coupled to the air introduction part 46 of the impeller coupling 40 through the cover 20, and a conventional screw coupling method is preferred.

As shown in FIG. 5, the coupling 50 is formed at the other end of the tube 30 and connected to the driving means, and is formed in a tube shape. Specifically, the coupling 50 is formed at one side and includes a tubular insertion portion 51 into which the tubular body 30 is inserted, a bolt hole 52 vertically formed in the tubular insertion portion 51, A drive shaft insertion portion 53 into which the rotation shaft of the drive means is inserted; a plurality of through holes 54 formed at a predetermined interval in the connection portion between the tube insertion portion 51 and the drive shaft insertion portion 53; And a slit 55 formed on the side of the base 51.

When the impeller 10 is immersed in the liquid container and the driving means is driven, the driving micro-bubbling device according to the present invention is driven by driving means-> rotating shaft-> coupling 50-> tube 30 The impeller 10 is rotated in the order of the impeller coupling 40 and the impeller 10 in this order and the impeller 10 is rotated in this order. The air is guided by the rotation of the impeller 10 and the negative pressure caused by the structure of the impeller 10 in the order of the coupling 40-> the air introduction part 46-> the space between the blades 13 of the impeller 10, And micro and nano bubbles are formed due to cavitation, strong turbulent flow, and Coanda effect caused by collision of air and liquid ejected by the impeller 10 rotating at a high speed.

The rotary microbubbing device of the present invention has a simple structure and is easy to manufacture and can be easily used by being directly inserted into a tank without equipment such as a separate piping and a pump. Which is excellent in energy consumption and less trouble, and has a merit of easy maintenance.

10: impeller 11: through hole
12: Disc 13: Blade
13 ': parallel portion 13'': inclined portion
20: cover
30: Tubular body
40: impeller coupling 41: insertion hole
42: tapered portion 43:
44: insertion portion 45: projection
46: air introduction part 47: pin hole
50: coupling 51: tube insertion part
52: bolt hole 53: drive shaft insertion portion
54: Through hole 55: Slit

Claims (4)

An impeller comprising a circular plate having a through hole at its center and a plurality of blades disposed perpendicularly to the circular plate on one side of the circular plate,
A cover in the form of a disk, which is disposed on one side of the impeller and is disposed in contact with the upper ends of the plurality of blades,
Hollow tube,
An impeller coupling connecting the impeller and one end of the tubular body,
And a coupling formed at the other end of the tube and connected to the driving means.
Rotary micro bubble device
The method according to claim 1,
The blade
A parallel portion positioned near the outer periphery of the circular plate and having a constant height,
And an inclined portion located on the inner side of the parallel portion and gradually decreasing in height toward the center
Rotary micro bubble device
The method according to claim 1,
The outer surface of the blade is located on the same line as the outer peripheral surface of the disk,
Wherein an area where the blade is installed on one side of the disk is inclined toward the outside, and the thickness of the disk is gradually thinned toward the outside
Rotary micro bubble device
The method according to claim 1,
The impeller coupling includes:
And an insertion hole through which the tubular body is inserted,
A tapered portion provided on the tubular body side and having an outer diameter gradually increasing toward the opposite side of the tubular body,
A diameter-enlarged portion formed in contact with the tapered portion and engaged with the other side surface of the disk of the impeller,
An insertion portion formed in contact with the enlarged diameter portion and having a relatively small outer diameter as compared with the enlarged diameter portion and inserted into the through hole of the impeller disk,
A protruding portion formed in contact with the insertion portion and located inside the blade of the impeller,
And an air introducing portion formed at the end of the protruding portion and formed of 'ten'
Rotary micro bubble device

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