KR101484952B1 - Air diffuser with micro bubbles generating functions - Google Patents

Abstract

The present invention relates to an air diffuser with a micro bubble generating function, which is to generate bubbles for oxygen supply for microorganism proliferation in an aerobic bath or floatation of various pollutants in a wastewater treatment facility or a sewage and sludge treatment facility. The air diffuser has a bubble generator (16) consisting of an jet unit (22) and a connection unit (24), which are made of hydrophobic stainless steel and manufactured by compressing and sintering multiple metallic films (26) having a diameter of 0.1-100 μm and a metallic powder layer (28), and combined and fixated to each combining hole (14) of a stainless steel pipe (12) so as to generate micro bubbles. Accordingly, sufficient oxygen necessary for microorganism proliferation and activation is supplied at a high oxygen transfer rate by the micro bubbles, and the micro bubbles are easily attached to foreign substances so as to rapidly separate liquid and solid by floatation. Furthermore, the air diffuser can prevent the backflowing of the sewage and wastewater through the air diffusing port when the wastewater treatment facility (30) is stopped in order to clean membranes.

Description

TECHNICAL FIELD [0001] The present invention relates to an air diffuser with micro bubble generation function,

The present invention relates to an acid engine having micro bubble generating function for supplying oxygen for culturing a microorganism to an aerobic tank such as a sewage treatment plant or a wastewater end treatment plant or for flocculating contaminants in water by using air bubbles, will be.

In general, aerobic microorganisms are cultivated in sewage treatment plants and wastewater treatment plants to oxidize various biodegradable harmful substances such as nitrogen and phosphorus in the wastewater. In addition, various small foreign substances are collected by flocculation after flocculation with coagulant , And after purification, it is discharged to the outside through filtration or draining using a plurality of membranes. As a means for floating microorganisms through the supply of oxygen and floating means of foreign substances by means of bubbles, It becomes necessary.

However, the acid organs installed in the wastewater treatment plant or the waste water end treatment plant can not be satisfied simply by supplying the air in the aerobic tank, but when the bubbles are generated through the acid apparatus, the bubbles must be refined to be easily dissolved in water, It is possible to rapidly purify harmful substances by the proliferation and activation of the microorganisms by the increase of the number of microorganisms, and the micro-bubbles can easily attach to various kinds of foreign substances, so that foreign matters for solid- It is necessary to prevent reverse flow of the wastewater through the acid mechanism when the sewage disposal apparatus for the filtration of the membrane having a poor filtering ability due to the subsequent filtration operation is stopped, .

As a representative prior art of an air diffusing apparatus for such a function, a membrane diffusing apparatus having a backflow preventing function is exemplified as an example of a prior art, And a membrane having a plurality of acid instruments is coupled and fixed to the upper portion of the second body, and then air is supplied through the air passage, The air blowing port of the second body is opened by the expansion of the membrane due to the expansion of the membrane and the air is supplied through the acid mechanism of the membrane and when the membrane is shrunk due to interruption of air supply, To prevent reverse flow.

However, since the membranes for preventing bubbles and preventing backflow through the acid devices are made of elastic materials such as soft synthetic resin, it is difficult to perforate the acid devices into fine sizes, and even if they are perforated with fine sizes The expansion of the acid mechanism in the expansion process of the membrane for air supply causes the size of the bubbles to be relatively large, so that the dissolution of oxygen can not be properly performed and the microorganisms are killed due to the low dissolved oxygen amount, As a matter of course, the cost of re-implanting the microorganisms is increased, and the bubbles having a large size can not be attached to the agglomerated foreign matter due to the strong lifting force, and are immediately discharged upward.

The membrane, which is made of stretchable material and exposed to the toxic wastewater, repeatedly expands and contracts for opening and closing the acid device, is easily stretched by repeated inflation, and the opening / closing of the backflow prevention cap for the air outlet of the second body It can not be done. Therefore, clogging of the mountain mechanism due to the back flow of the wastewater can cause deterioration of the function, and it is troublesome to remove it from time to time, and there are many problems such that the service life is very short, will be.

Patent Document 10-1291238 'Membrane air diffusing apparatus having a backflow prevention function'

It is an object of the present invention to provide a micro bubble generator which can prevent the back flow of wastewater during operation stoppage of the wastewater treatment apparatus while preventing microbubbles from being formed by fine formation of the acid apparatus, And to provide an acid pipe having a generating function.

According to an aspect of the present invention, there is provided an air diffuser having a micro bubble generating function. The air diffuser includes a plurality of metal films having a film pore size fine to a plurality of bonding holes formed in a tube body, Are fixedly coupled to each other.

The present invention is characterized in that a bubble generator (16) made of stainless steel of hydrophobic material is fixedly coupled to each coupling hole (14) of a tube body (12) made of stainless steel, and each bubble generator (16) 22 are composed of a plurality of hydrophobic metal films 26 and hydrophobic metal powder layers 28 having a fine pore size of 0.1 mu m to 100 mu m integrated by compression sintering so as to have a fine acid mechanism, It is possible to supply sufficient oxygen necessary for the proliferation and activation of the microorganisms in the aerobic tank with a high oxygen transient due to the occurrence of the microorganisms, so that the purification of harmful substances by the microorganisms can be performed quickly and easily, and the fine bubbles of the dissolved air Because it attaches easily to the agglomerated foreign matter, the foreign matter is floated rapidly, The bubble generator 16 and the bubble generator 16 of the hydrophobic material can be used semi-permanently because the tube 12 and the bubble generators 16 made of stainless steel have no fear of shortening the life of the bubble generator 16, It is possible to prevent the deterioration of the function of the sewage treatment apparatus 30 due to the reverse flow during the operation of the sewage treatment apparatus 30, and so on.

1: perspective view of the present invention
2: sectional configuration diagram of the present invention
3 is a sectional view of the bubble generator used in the present invention;
Figure 4: State of use of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate like elements in the drawings, It will be omitted for the sake of clarity.

FIG. 1 is a perspective view of the present invention, and FIG. 2 is a cross sectional structural view of the present invention. In the present invention, an orifice 10 is formed by forming a plurality of engaging holes 14 in a tube 12 made of a metal material, And a bubble generator (16) made of a metal material is fixedly coupled to the bubble generator (14).

In order to prevent corrosion, the tube 12 used in the present invention is made of stainless steel to have a desired length and has an air supply chamber therein. At one end of the tube 12, a connection part The bubble generator 16 and the bubble generator 16 are fixed to each other at a position where they do not interfere with each other. The bubble generator 16 can be coupled more quickly and easily.

FIG. 3 is a cross-sectional view of the bubble generator used in the present invention. The bubble generator 16 used in the present invention has a coupling portion 24 formed at the bottom of the ejection portion 22 having a mountain mechanism, The sputtering portion 22 is formed by forming a metal powder layer 28 on a plurality of metal films 26 each having a fine pore size and compression sintering to form a metal film 26 ) And the powder of the metal powder layer (28), thereby forming a fine acid mechanism.

It should be noted that the metal film 26 to be used at this time may be manufactured in various kinds of pores having a pore size of 0.1 to 100 탆, and a plurality of the metal films 26 may be selectively used according to the degree of fine bubbles to be obtained. The metal film 26 having a gradually increasing pore size is selected and formed in a multi-stage manner and the metal powder layer 28 is formed on the uppermost metal film 26 It is preferable that the sintered compact is made to have a narrow and narrow acid mechanism toward the upper part.

The coupling portion 24 provided at the bottom of the ejection portion 22 is formed with a through hole 25 penetrating up and down to expose the ejection portion 22 and can be coupled to the coupling hole 14 of the tubular body 12 A thread corresponding to the external surface of the tubular body 12 is formed on the outer surface of the tubular body 12 when the thread is formed on the inner surface of the fitting hole 14, In order to form an integral part of the spout 22 on the bottom of the spout 22, the engaging part 24 is separately formed and then joined to the spout 22 using welding or the like, or a plurality of metal films, It is of course possible to integrally compress and sinter the metal film constituting the spouting portion and to form the coupling portion 24 integrally at the bottom of the spraying portion 22 by machining so as to have a through hole and a desired outer shape.

Furthermore, each bubble generator 16 is preferably made of SUS316L, which is a hydrophobic material, in order to help prevent reverse flow of wastewater in stainless steel.

The ejector 22 of each bubble generator 16 may be formed in a square or hexagonal shape or may be formed in a shape of a "-" shape such that the bubble generator 16 is coupled to the tube 12 by a screw thread It is of course possible to form a groove of a '+' type so that the tool can be used to unlock and tighten it.

In the present invention, the tube body 12 constituting the air diffusing tube 10 and each bubble generator 16 are screw-coupled to each other, so that they can be quickly assembled and used.

4, one or more fixedly installed on the bottom surface of the sewage treatment apparatus 30 according to the capacity of the sewage treatment apparatus 30, The air bubble generator 16 functions as an air diffuser 10 for allowing the air supplied from the air pump or the air tank through the air supply tube 18 to be airtight by the air bubble generator 16 and sprayed into the water.

Because the tube 12 and the bubble generator 16 are made of stainless steel, the air diffuser 10 disposed on the bottom surface of the sewage treatment apparatus 30 and exposed to the sewage water may be corroded or deformed There is no concern, so you can use it semi-permanently.

Particularly, the bubble generator 16, which is fixedly coupled to each of the coupling holes 14 of the tube 12 and generates bubbles, is formed by arranging the blowing portions 22 in the form of a plurality of kinds of metal films A plurality of metal films 26 and a metal powder layer 28 are formed by compression sintering the metal film 26 and the metal powder layer 28. The plurality of metal films 26 to be used are formed in multi- 28 are formed on the uppermost metal film 26 so that when the air supplied through the air supply tube 18 is ejected from the inside of the tube 12 through each bubble generator 16, Since the metal micropores 26 having a small pore size gradually decrease toward the upper part due to the gap between the metal powder layer 26 and the powder of the metal powder layer 28, Oxygen easily dissolves in water The oxygen supply of the microorganisms in the aerobic tank can be sufficiently performed with the increase of the dissolved oxygen amount due to the high oxygen transient rate, so that the oxidation and purification of various harmful substances can be rapidly and easily performed due to the proliferation and activation of the microorganisms .

In addition, when the bubbles blown out through the bubble generator 16 are miniaturized, the fine bubbles easily adhere to various kinds of foreign substances aggregated by the flocculant, and the foreign substances to which a large amount of microbubbles adhere are immediately floated, So that the purification operation by floatation of various foreign substances can be performed quickly and easily.

The plurality of metal films 26 constituting the spouting portion 22 of the bubble generator 16 are formed such that the metal powder layer 28 is formed on the metal film 26 located on the uppermost portion of the metal film 26, The bubbles generated by the air supply from the bubbler 16 are smoothly generated while the bubbles generated by the bubbler 16 are very fine when viewed from the outside and the stoppage of the wastewater treatment 30 for the removal of the membrane due to the hydrophobicity of the bubbler 16 There is no fear of backwashing of the wastewater through the edo-acid apparatus, so that it is possible to faithfully carry out the function as the constant-temperature engine 10.

(10) - Acanthracer (12) - Tubular body
(14) - coupling hole (16) - bubble generator
(18) -transport (20) -connection
(22) -spouting part (24)
(25) - through hole (26) - metal film
(28) - metal powder layer (30) - sewage treatment device

Claims (7)

A plurality of engaging holes 14 are formed in a tube 12 connected to the air supply tube 18 through a connecting portion 20 provided at one side of the tube 12 so as to form a jetting portion 22 having a mountain mechanism in each engaging hole 14, The bubble generator (16) comprises a plurality of baffles (16) each having a pore diameter of 0.1 to 100 탆. A plurality of metal films 26 to be selected from the metal films are formed in a multi-stage so as to have a smaller pore size in the upper part and a metal powder layer 28 is formed on the uppermost metal film 26, followed by compression sintering Characterized in that it has a micro-bubble generating function. delete delete delete delete delete delete

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