KR101424949B1 - Membrane diffuser - Google Patents

Abstract

According to the present invention, a liquid membrane diffuser is joined with an air pump and discharges gas transferred by the air pump into water to be treated. The liquid membrane diffuser includes: a main diffusing pipe having a plurality of air discharging holes formed on an outer circumferential side of a side surface of a main body part; a first support pipe body which is joined to a lower part of the main diffusing pipe; a first gas collection body which collects gas discharged from the gas discharging holes; a second support pipe body which is joined to a first outlet of the first gas collection body; a subsidiary diffusing pipe which has a plurality of subsidiary gas discharging holes formed thereon and is supported by a second support part of the second support pipe body; and a second gas collection body which collects gas discharged from the subsidiary gas discharging holes.

Description

[0002] MEMBRANE DIFFUSER [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid film diffuser, and more particularly, to a liquid film diffuser device capable of increasing the dissolution efficiency of a gas and making it universally usable in a gas dissolving field.

Generally, the liquid film diffuser apparatus treats treated water by spraying air to treated water in a treatment tank of a wastewater treatment facility, supplies oxygen in the water containing fish and shellfish, .

Such a liquid film diffuser is generally used for dissolving a gas such as oxygen or the like in the water to be treated in a treatment tank or for agitating the water to be treated. In order to mix microbubbles with a magnetic or synthetic rubber membrane, Mixed type and the like are known.

In other words, the liquid film diffusing apparatus can be used for the aerobic reaction tank or the micro bubble flooding tank, the ozone oxidation tank, the water treatment plant, the village waterworks, and the ground water, etc., such as a public sewage treatment plant, a wastewater treatment plant, a village sewage treatment plant, It is intended to supply air or other gases such as ozone where required.

Conventionally, a gas such as oxygen is delivered to the water to be treated by using a liquid film diffuser, and energy such as ultrasonic waves or acoustic resonance is supplied to bubbles in the water to be treated by using a vibration means such as an ultrasonic device, To increase the dissolution rate.

For example, there is a technique developed in Korean Patent No. 10-1010579 as a technique for supplying a large amount of oxygen to the water to be treated, in which a bolt fastening portion is formed at the center and an air chamber is formed around the bolt fastening portion A plurality of discs having an air nozzle having a groove and a predetermined size and spacing adjacent to the air chamber, a lower surface being formed relatively larger than an upper surface, and an outer surface being formed obliquely; A bolt having a ventilation portion formed on an outer circumferential surface thereof; And a nut coupled to an end of the bolt to assemble the disks. The lower surface of the upper layer of the plurality of disks is in close contact with the upper surface of the lower layer disk, Wherein a portion of the air nozzle formed on the upper surface of the disk located in the lower layer closely contacts the upper surface of the disk, and air bubbles are generated finely through the air nozzle, One or more discs are made of a flexible material. When pressure of the air is increased, both ends of the disc are elastically deformed by the pressure, thereby preventing clogging of the air nozzles.

However, in the above-described conventional art, the gas injected from the air diffuser only ascends upward, the gas can not be efficiently dissolved in the for-treatment water, and vibration is not generated in the air diffuser itself, There is a disadvantage in that a large equipment cost is required to increase the rate of dissolving the gas in the water to be treated.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a gas diffusing apparatus, in which a gas confinement space is formed on an uppermost inner layer of a main diffusor, And the surrounding water to be treated is caused to flow upward together with the gas so that the gas can be dissolved in the water to be treated more quickly due to the vibration caused by compression and expansion of the gas in the gas confinement space, And it is an object of the present invention to provide a liquid film damper device capable of easily discharging a gas through a gas discharge hole and increasing the amount of air supplied,

In order to accomplish the above object, the present invention provides a liquid film fryer device connected to an air pump and discharging a gas to be delivered from the air pump in the for-treatment water, the device comprising: A plurality of gas discharging holes for discharging the air to be treated from the air pump to the for-treatment water, wherein the gas discharging holes are formed in the water to be treated, A main air orifice in which a discharge hole is formed vertically above and below a circumferential surface of a side surface of the main body; A first support tube coupled to a lower portion of the main air flow tube by forming a plurality of first support portions on a circumferential surface thereof; A first arsenic collector which forms a first outlet at an upper center portion and is supported by a first support portion of the first support tube to collect gas released from a gas discharge hole of the main diffusion tube; A second support tube formed on the circumferential surface of the first support body and coupled to the first outlet of the first base body assembly; An auxiliary inclined portion formed on the lower circumferential surface and having a plurality of auxiliary gas discharge holes formed in the inclined portion and supported by the second supporting portion of the second supporting tube; And a second arsenal collector which forms a second outlet at an upper center portion and covers an upper portion of the auxiliary arsenal to collect gas released from the auxiliary gas discharge holes of the auxiliary engine.

And the cross-sectional area of the gas discharge holes of the main air diffusing pipe is increased downwardly to the lower side of the main body portion, and the diameter of the main diffusing pipe increases as the main body portion of the main air diffusing pipe is lowered. And the to-be-processed milk feed opening is formed on the bottom or inclined surface of the lowermost side of the main body.

And a gas expansion guide portion for expanding the gas at an outer upper end portion of the main body of the main accumulation orifice, wherein a plurality of grooves are formed on the circumferential surface of the gas expansion guide portion of the main accumulation orifice, A plurality of cut-out portions can be formed and the gas can be expanded and expanded in the for-treatment water.

Since the compression and expansion of the gas occurs in the gas confinement space, the vibration generated due to the compression expansion is transmitted to the gas discharge hole, so that the fine bubbles and the coarse gas are mixedly produced in the gas discharge hole The efficiency of gas dissolution can be increased and there is an advantage that the water to be treated in the vicinity of the bubble releasing hole can be taken up by air lift phenomenon due to a large buoyant force and the water to be treated can be efficiently stirred.

In addition, since the bubble releasing holes for discharging bubbles in the for-treatment water do not have pore portions for causing loading and the cross-sectional area of a large number of gas discharging holes increases as they descend to the lower side of the main body, even if the amount of air supplied to the air pump varies, It is possible to easily disperse and emit bubbles, so that the generation and dispersion of bubbles are efficient, resulting in excellent economy and energy saving.

Further, the liquid film-forming apparatus according to the present invention can be used not only for air but also for gases such as oxygen gas, nitrogen gas, carbon dioxide gas and the like, and thus can be applied to a wide range of applications.

Since the bubbles spread widely due to the gas expansion guide, it is possible not only to increase the stirring amount of the water to be treated, but also to improve the dissolution efficiency by prolonging the contact time between the bubbles and the water to be treated, It is possible to dissolve the gas directly into the water to be treated by introducing the water to be treated into the inside of the acid pipe where the air pressure changes.

The untreated water in the vicinity of the lower end of the first arresting collecting body and the second artefact collecting body is introduced and mixed together with the gas so that the untreated water around the air diffusing pipe of the present invention can be introduced and treated easily.

FIG. 1 is a schematic view showing a configuration of a liquid film-diffusing device according to the present invention.
2 is a cross-sectional view showing an example of a liquid film-forming device according to the present invention.
3 is a perspective view showing another example of a main diffuser applied to the liquid film diffuser according to the present invention.
4 is a sectional view showing another example of the liquid film-forming device according to the present invention.
5 and 6 are sectional views respectively showing still another example of the liquid film-forming device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 to 3 are views showing an example of a liquid film damper according to the present invention, in which the liquid film damper is connected to an air pump 1 and discharges gas, which is conveyed from the air pump 1, , And is connected to a connection port (3) connected to the outlet pipe (2) of the air pump (1) and installed upright in the for-treatment water.

That is, the liquid film damper device according to the present invention includes a main air diffuser 10, a first support tube body 20, a first base body assembly 30, a second support tube body 40, The second support body 40 and the assistant engine 50 are provided on the second base body 60 in accordance with the depth of the water to be treated. It is possible to stack a plurality of air bag assemblies identical to the first and second air bag assemblies 30 and 60.

The main diffuser 10 includes a connecting portion 11 to be coupled to a connecting port 3 to be connected to the outlet pipe 2 of the air pump 1 and a main body 11 having a plurality of gas discharging holes 12a, (12), and is set up in the water to be treated.

A gas confining space 12b is formed on the uppermost part in the main body 12 and a plurality of gas discharge holes 12a for discharging air to be treated water from the air pump 1 to the for- And the upper surface and the lower surface of the side surface of the portion 12 are arranged.

Then, the gas delivered from the air pump 1 flows through the pipe 2, the gas is discharged onto the side radial side of the main body 12, and the gas can be discharged to the side of the main body 12, The gas can be smoothly dissolved in the treated water as well as the stirring action of the for-treatment water can be performed smoothly on the side surface of the body portion 12. [

In addition, since the gas is compressed and expanded in the gas confinement space 12b formed in the main body 12, vibration can be generated. As a result, even when a separate vibrating means is not provided as in the prior art, micro- and coarse- The gas dissolution efficiency and speed can be increased.

As another example, as shown in FIGS. 3 to 6, the main air diffusing pipe 10 includes a gas expanding guide portion 13 for expanding and guiding the gas, which is formed on the outer upper end portion of the main body portion 12 , So that the gas released and raised from the gas discharge hole (12a) is expanded and raised in the water to be treated by the gas expansion guide (13).

A plurality of grooves 13a are formed on the circumferential surface of the gas expansion guide 13 to increase the gas expansion area of the gas released and raised from the gas discharge hole 12a, And the gas rising in the for-treatment water flows through the circumferential surface of the gas expansion guide 13 and the plurality of grooves 13a and the cutout portions 13b So that the contact range between the water to be treated and the gas can be increased.

In addition, in order to smoothly discharge the air through the plurality of gas discharge holes 12a in preparation for varying the amount of air to be transferred from the air pump 2, the gas discharge hole 12a has a cross- (12) downward.

5, since the diameter of the main body portion 12 increases downward, the gas can be smoothly raised through the gas discharge hole 12a of the main body portion 12 will be.

In particular, in order to increase the gas dissolution rate and amount by bringing the water to be treated into the inside of the main body part 12 and directly contacting the gas conveyed by the air pump 2, And a structure for forming a milk feeding mouth 12c to be treated on the lower side or an inclined surface of the lower part of the body 12.

The first support tube 20 is coupled to a lower portion of the main aeration tube 10 and a plurality of first support portions 21 are formed on a circumferential surface of the first support tube 20, The main accumulation orifice 10 is installed on the circumferential surface of the connection port 3 to be connected to the connection portion 11 of the main accumulation orifice 10 to support the main accumulation orifice 10 and the first accumulation body 30.

The first air trap assembly 30 is supported by the first support portion 21 of the first support tube 20 and collects the gas emitted from the gas discharge hole 12a of the main air diffuser 10 And a first outlet 31 is formed at the center of the upper portion of the first gun body 30 to raise the collected gas.

The second support tube body 40 supports between the first primitive collector assembly 30 and the auxiliary engine 50 and the auxiliary support body 50 is supported on the circumferential surface of the second support tube body 40 And is coupled to the first outlet 31 of the first pre-assemblage 30. The second pre-

A plurality of insertion grooves 51 may be provided in the lower side of the support tube 50 so that the end of the second support tube 41 of the second support tube body 40 may be inserted into the auxiliary tube 50, And the second support portion 41 of the second support tube body 40 can support the support tube 50. [

The support body 50 is supported by the second support portion 41 of the second support tube body 40 and the inclined portion 52 is formed on the lower circumferential surface of the support body 50 And a plurality of auxiliary gas discharge holes 52a are formed in the inclined portion 52.

The second air bag assembly 60 covers the upper part of the auxiliary air storage 50 and collects the gas discharged from the auxiliary air discharge hole 52a of the auxiliary air storage 50. The air bag 60 is attached to the air bag assembly 60, A second outlet 61 is formed at an upper center portion of the upper portion to discharge the collected gas.

Of course, as shown in FIGS. 2 and 4 to 6, the distal end portion of the first support portion 21 of the first support tube body 20 and the distal end portion of the first primal collector assembly 30 and the second primal collector assembly 60, It is obvious that the lower circumferential portion of the bolt 70 can be joined to each other by the bolts 70 having a long length to be firmly fixed as a whole.

The liquid film-forming device according to the present invention thus operates as follows.

The gas conveyed by the air pump 1 is stored while colliding with the gas confinement space 12b of the main body portion 12 of the main accumulation orifice 10 to compress and expand the gas to generate vibration, The gas stored in the confined space 12b is discharged into the water to be treated on the side radial side of the body portion 12 through the gas discharge hole 12a.

In other words, as the gas stored in the gas confining space 12b and the gas supplied by the air pump 1 rise in the body portion 12, a gas collision occurs in the gas confining space 12b, The vibration generated due to the pressure change of the gas in the gas confinement space 12b is transmitted to the main body portion 12 of the main air diffusing tube 10 so that the main body portion 12 is vibrated.

In this case, the vibration is transmitted also in the gas discharge hole 12a, so that the diameter of the bubble can be varied in the process of discharging the gas through the gas discharge hole 12a, so that the fine bubble and the coarse bubble can be processed through the gas discharge hole 12a Water.

When the amount of gas transferred by the air pump 1 is small, the cross-sectional area of the gas discharge hole 12a increases toward the lower side of the main body portion 12, When the amount of gas to be delivered by the air pump 2 is large, the upper gas discharge hole 12a and the lower gas discharge hole 12a in the plurality of gas discharge holes 12a The bubbles are smoothly discharged.

Furthermore, the gas bubbles discharged from the gas discharge holes 12a spread widely in the gas expansion guide portion 13 while the gas bubbles rise in the for-treatment water, as well as the groove portion 13a formed in the gas expansion guide portion 13, And the water to be treated flows into the main body part 12 through the water feeding hole 12c to be treated so that the gas and the water to be treated are smoothly flown inside the main body part 12, .

The gas released from the gas discharge hole 12a of the main accumulation orifice 20 is collected and raised by the first gas collection assembly 30 and passes through the first discharge port 31 and the second support tube body 40 The gas that has passed through the second support tube body 40 collides with the upper side of the inner surface of the auxiliary storage 50 and goes up through the auxiliary gas discharge hole 52a of the auxiliary storage 50.

The gas that has passed through the auxiliary gas discharge hole 52a of the auxiliary storage engine 50 is collected by the second primary collection body 60 and discharged and raised through the second outlet 60a.

Furthermore, in the process of collecting the gas into the first and second arsenic assemblies 30, 60, the for-treatment water around the lower circumferential surface of the first and second arsenic assemblies 30, So that the gas and the water to be treated are mixed smoothly.

Thus, the liquid film damper device according to the present invention is capable of efficiently circulating the for-treatment water in the vicinity by air lift phenomenon, efficiently stirring the water to be treated, and spraying air to the treated water in the treatment tank of the wastewater treatment facility, And it is also applicable to various fields such as a gas-liquid contact reaction tower of a chemical plant, and the like, and also supplies oxygen in the water containing fish and shellfish.

1: air pump 2: pipe
3: connector 10: main diffuser
11: connecting part 12:
12a: gas discharge hole 12b: gas confinement space
12c: untreated milk feeding mouth 13: gas expanding guide
13a: groove portion 13b:
20, 40: first and second supporting tube bodies 21, 41: first and second supporting tubes 21,
30, 60: First and second arresting assemblies 31, 61: First and second outlets
50: an assistant organ 51: a groove
52: inclined portion 52a: auxiliary gas discharge hole

Claims (6)

A liquid film damper device connected to an air pump and discharging gas to be transferred from the air pump in the water to be treated,
A connection portion connected to the outlet side pipe of the air pump, and a body portion having a plurality of gas discharge holes, and is installed upright in the for-treatment water, and a gas confining space is formed on the uppermost inside of the body portion, Wherein a plurality of gas discharge holes for discharging air to the for-treatment water are arranged above and below the circumferential surface of the side surface of the main body;
A first support tube coupled to a lower portion of the main air flow tube by forming a plurality of first support portions on a circumferential surface thereof;
A first arsenic collector which forms a first outlet at an upper center portion and is supported by a first support portion of the first support tube to collect gas released from a gas discharge hole of the main diffusion tube;
A second support tube formed on the circumferential surface of the first support body and coupled to the first outlet of the first base body assembly;
An auxiliary inclined portion formed on the lower circumferential surface and having a plurality of auxiliary gas discharge holes formed in the inclined portion and supported by the second supporting portion of the second supporting tube;
And a second arsenic collector which forms a second outlet at an upper center portion and covers an upper portion of the auxiliary oxygen storage vessel to collect gas released from the auxiliary gas discharge holes of the auxiliary engine. The method according to claim 1,
A gas expansive guide for expanding and guiding the gas is formed on the outer upper end of the main body of the main diffuser, so that the gas released and raised in the gas discharging hole is expanded and raised in the water to be treated by the gas expanding guide . 3. The method of claim 2,
Wherein a plurality of grooves are formed on a circumferential surface of the gas expansion guide of the main diffuser, and a plurality of slits cut into the gas expansion guide are formed so as to expand the gas in the for-treatment water. Device. 4. The method according to any one of claims 1 to 3,
And the sectional area of the gas discharge hole of the main air diffusing pipe is increased downward to the lower side of the main body of the main air diffusing pipe. 4. The method according to any one of claims 1 to 3,
Wherein the main body of the main diffuser increases in diameter as it goes downward. 4. The method according to any one of claims 1 to 3,
And forming a for-treatment milk inlet bore on the bottom or inclined surface of the lowermost side of the main body of the main acid augment.

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