KR102100463B1 - Air Diffuser Improved Purifying Efficiency - Google Patents

Abstract

The present invention relates to an air diffuser with improved purification efficiency, capable of smoothly supplying air around a lower part. According to the present invention, the air diffuser with improved purification efficiency comprises: an air supply pipe (10) supplying air from a blower; a plurality of air discharge holes (20) installed in the air supply pipe (10) at predetermined intervals and upwardly discharging the air from the air supply pipe (10); and an air spray unit (30). The air spray unit (30) comprises: a housing (31) coupled to the air supply pipe (10) to communicate with the air discharge hole (20) and having an air outlet (31a) formed on an outer circumference; a rotational shaft (32) rotationally coupled to the outside of the housing (31); 2 to 6 tubular blades (33) radially protruding from the outer circumference of the rotational shaft (32) disposed outside the housing (31), in which the air outlet (31a) is formed, to form a predetermined angle, having a closed outer end part, and communicating with the inside of the rotational shaft (32) to supply the air exhausted from the air outlet (31a); and a plurality of air spray holes (34) formed on the outer circumference of the lower portion of the tubular blade (33) to be spaced apart in the longitudinal direction of the tubular blade (33), communicating with the inside of the tubular blade (33) to downwardly spray the air supplied into the tubular blade (33) to be diffused to the lower part around the rotational shaft (33), and forming an acute angle from the center of the tubular blade (33) at the lower end part of the tubular blade (33) to provide a thrust for rotating the rotational shaft (32) by the tubular blade (33).

Description

Air Diffuser Improved Purifying Efficiency

The present invention makes the air supplied from the blower into a very small or medium-sized micro-bubble state to disperse the air in the tank so that the microorganisms are oxygenated in the air so that sufficient aeration occurs in the aerobic tank and the reaction tank in the activated sludge method for purifying sewage. It relates to an air diffuser with improved purification efficiency to breathe and grow well.

In general, the air diffuser disperses the air in the tank by making the air supplied from the blower into a very small or medium-sized micro-bubble state so that sufficient aeration occurs in the aerobic tank and the reaction tank in the activated sludge method for purifying sewage. It is a device to breathe oxygen inside and grow well.

Most of these air diffusers use a method in which the micro bubbles are discharged to the upper part in the form of a wide mesh network, and the air diffuser is used in various forms such as a disc shape or a cone shape.

An example of an air diffuser is Korean Patent Registration No. 10-0513295 (invention name: air diffuser for wastewater treatment), which is illustrated in FIG. 1.

In the air diffuser, micro-bubbles are discharged upward through the through hole 122 of the cover member 120. Therefore, the microbubbles are not transmitted to the lower portion of the diffuser member 110, and sludge or the like accumulates in the lower portion of the diffuser member 110, which hardens or stagnates and prevents the supply of oxygen. .

Another example of the air diffuser is Korean Utility Model No. 20-0229181 (name of the draft: a cone-shaped air diffuser for preventing bubble coalescence), which is illustrated in FIG. 2.

The air diffuser is discharged to the upper portion through the air nozzle 1 of the air diffuser 3, similar to the air diffuser described above. Therefore, since fine bubbles are not transmitted to the lower portion of the acid pipe 3, sludge or the like accumulates or accumulates in the lower portion of the mountain pipe 3, so that oxygen cannot be supplied, and thus purification efficiency is deteriorated. .

Accordingly, there is a need to develop an air diffuser for improving purification efficiency by preventing micro-bubbles from being accumulated in the lower part of the air diffuser to prevent the sludge from accumulating and solidifying, or by supplying oxygen without stagnation.

The present invention has been devised to solve the above problems, and the object of the present invention is to increase the purification efficiency by preventing the sludge from accumulating or stagnating at the bottom of the diffuser by allowing air bubbles to be transferred to the bottom of the diffuser. It is to provide an air diffuser with improved purification efficiency.

Another object of the present invention is to provide an air purifier with improved purification efficiency that enables smooth supply of air around the lower portion of the air purifier by allowing it to be rotated by compressed air that is supplied without the need for a separate power to rotate the air purifier. will be.

An air purifier having improved purification efficiency of the present invention for achieving the above object is an air supply pipe through which air is supplied from a blower as an air supply device to supply compressed air so that aeration occurs in an activated sludge method for purifying sewage. (10); A plurality of air discharge holes 20 installed at regular intervals in the air supply pipe 10 and allowing air to be discharged upward from the air supply pipe 10; A housing 31 coupled to the air supply pipe 10 so as to communicate with the air discharge hole 20 and having an air exhaust hole 31a formed on an outer periphery, and a rotation shaft rotatably coupled to the outside of the housing 31 ( 32), the air exhaust hole (31a) is formed on the outer periphery of the rotating shaft (32) located outside the housing 31 is formed radially protruding to form a predetermined angle, from the air exhaust hole (31a) 2 to 6 tubular blades 33 communicating with the inside of the rotating shaft 32 so that the exhausted air is supplied, and a constant lengthwise direction of the tubular blade 33 at the outer periphery of the lower portion of the tubular blade 33 It is formed to form a gap, and communicates with the inside of the tubular blade 33 so that the air supplied into the tubular blade 33 is injected downward to aerate below the rotating shaft 32, but the tubular blade 33 By) An air injection unit (32) formed of a plurality of first air injection holes (34) formed to form an acute angle from the center of the tubular blade (33) at the lower end of the tubular blade (33) so as to have a driving force to rotate the rotating shaft (32) 30); characterized in that it comprises a.

In addition, the diameter of the first air injection hole 34 is characterized in that the larger the diameter toward the end of the tubular blade 33.

In addition, a second air injection hole 35 is further formed at the outer end of the tubular blade 33.

In addition, the tubular blade 33 is characterized in that it is formed to protrude radially downwardly at the same acute angle.

In addition, the air supply pipe 10 is provided with a protruding portion 11 formed in communication with the air supply pipe 10 and protruding upward in a T-shape, and an upper flange 11a is provided at an upper end of the protruding portion 11. It is formed, so that the lower flange 35 is formed on the lower portion of the housing 31 to bolt the lower flange 35 and the upper flange 11a, so that the housing 31 is coupled to the air supply pipe 10 It is characterized by being.

In addition, it is provided on the lower part of the housing 31, the outer peripheral edge of the air supply pipe 10 is provided with a banding fixing portion 36 to be fixed to the housing 31 to the air supply pipe 10 It is characterized by.

In the air diffuser having improved purification efficiency of the present invention, the first air injection hole 34 is formed to form an acute angle from the center of the tubular blade 33 at the lower end of the tubular blade 33. , Since air is supplied to the lower portion of the air diffuser, unlike conventional devices, air is supplied to the lower portion of the air diffuser, so microbubbles are transferred to the lower portion of the air diffuser to accumulate sludge, etc. It is possible to prevent the solidification or to improve the purification efficiency by allowing oxygen to be supplied without stagnation.

1 is a perspective view showing an air diffuser with improved purification efficiency according to the present invention.
2 is a longitudinal sectional view showing an air diffuser with improved purification efficiency according to the present invention.
3 is a view showing the operating state of the tubular blade located on the upper layer of the air diffuser with improved purification efficiency according to the present invention.
4 is a view showing the operating state of the tubular blade located on the lower layer of the air diffuser with improved purification efficiency according to the present invention.
5 is a perspective view showing an air diffuser with improved purification efficiency according to another embodiment of the present invention.

Hereinafter, an air diffuser with improved purification efficiency of the present invention will be described in detail with reference to the drawings.

1 is a perspective view showing an air purifier with improved purification efficiency according to the present invention, FIG. 2 is a longitudinal sectional view showing an air purifier with improved purification efficiency according to the present invention, and FIG. 3 is an air purifier with improved purifying efficiency according to the present invention Is a diagram showing the operating state of the tubular blade located on the upper layer of, Figure 4 is a view showing the operating state of the tubular blade located on the lower layer of the air diffuser with improved purification efficiency according to the present invention, Figure 5 is another form according to the invention It is a perspective view showing an air diffuser with improved purification efficiency.

The aeration device according to the present invention is installed in an aerobic tank, a reaction tank, and the like, and the activated sludge method for purifying sewage supplies compressed air so that aeration occurs, thereby increasing the biological oxygen demand (BOD) so that purification by microorganisms It is performed to improve the purification efficiency by being made.

An air diffuser with improved purification efficiency according to the present invention includes: an air supply pipe (10); Air exhaust hole 20; Air injection unit 30; comprises a.

The air supply pipe 10 is supplied with air from a blower.

The air supply pipe 10 is installed in the lower portion of the tank, and is usually provided in a grid shape.

The air discharge hole 20 is installed at a predetermined interval in the longitudinal direction on the upper end of the air supply pipe 10 and serves to discharge air from the air supply pipe 10 to the top, and is formed in plural.

The air discharged to the air discharge hole 20 is injected by the air injection unit 30 to supply oxygen in the tank to improve purification efficiency.

The air injection unit 30 includes a housing 31, a rotating shaft 32, a tubular blade 33, and a plurality of first air injection holes 34.

The housing 31 is vertically coupled to the air supply pipe 10 so as to communicate with the air discharge hole 20 and an air exhaust hole 31a is formed at the outer periphery. The air supplied to the air supply pipe 10 is discharged to the air discharge hole 20, and the discharged air is supplied into the housing 31.

Since the air discharge hole 20 formed in the air supply pipe 10 is formed to discharge air to the upper portion of the air supply pipe 10, the housing 31 coupled to the air supply pipe 10 is the The air supply pipe 10 is coupled to each other to form a T-shape.

The rotating shaft 32 is rotatably coupled to the outside of the housing 31.

The tubular blade 33 is formed to protrude perpendicular to the axial direction of the rotating shaft 32 on the rotating shaft 32.

The tubular blade 33 is formed to protrude perpendicular to the axial direction of the rotating shaft 32 on the outer periphery of the rotating shaft 32 located outside the housing 31 in which the air exhaust hole 31a is formed. , It is formed to protrude radially to form a certain angle, has a certain length, the outer end is closed, and communicates with the inside of the rotating shaft 32 so that the air exhausted from the air exhaust hole 31a is supplied, 2 to 6 It consists of dogs.

The air supplied into the housing 31 is exhausted into the air exhaust hole 31a, and the exhausted air is supplied into the tubular blade 33.

When the tubular blades 33 are made of two, each of the tubular blades 33 forms an angle of 180 degrees around the rotating shaft 32, and when the tubular blades 33 are made of three, each The tubular blade 33 forms an angle of 120 degrees around the rotating shaft 32.

The first air injection hole 34 is formed in plural to form a predetermined interval in the longitudinal direction of the tubular blade 33 on the outer periphery of the lower portion of the tubular blade 33. When the air supplied into the housing 31 is exhausted into the air exhaust hole 31a and supplied into the tubular blade 33, it is injected into the tank through the first air injection hole 34.

The first air injection hole 34 is in communication with the inside of the tubular blade 33 so that the air supplied into the tubular blade 33 is injected downward to aerate the lower portion around the rotating shaft 32, It is formed to form an acute angle from the center of the tubular blade 33 at the lower end of the tubular blade 33 so as to have a driving force to rotate the rotating shaft 32 by the tubular blade 33.

When the first air injection hole 34 is formed to form an acute angle from the center of the tubular blade 33 at the lower end of the tubular blade 33, it is to be injected into the jaw through the first air injection hole 34 When the air is injected, the tubular blade 33 is rotated by the thrust force of the injected air, and since the tubular blade 33 is formed on the rotating shaft 32, the rotating shaft 32 rotates.

In addition, when the first air injection hole 34 is formed to form an acute angle from the center of the tubular blade 33 at the lower end of the tubular blade 33, air is supplied to the lower portion of the air diffuser, so that the conventional Unlike the device, air is supplied to the lower part of the air diffuser, so microbubbles are transferred to the lower part of the air diffuser to prevent sludge from accumulating and accumulating at the bottom of the air diffuser, or to supply oxygen without stagnation. Purification efficiency can be improved.

In addition, since the rotating shaft 32 is rotated by compressed air supplied to the air supply pipe 10, a separate power is not required to rotate the rotating shaft 32, so the device is simple and power can be reduced. There will be. In addition, since the rotating shaft 32 rotates, air is injected through the first air injection hole 34 formed in the tubular blade 33, so that air can be smoothly supplied to the periphery of the air diffuser.

It is preferable that the diameter of the first air injection hole 34 increases in diameter toward the end of the tubular blade 33.

When the diameter of each of the first air injection holes 34 formed in the tubular blade 33 is the same, injection of compressed air discharged to the first air injection holes 34 located close to the rotation shaft 32 The pressure increases and the injection pressure of compressed air discharged to the first air injection hole 34 located far from the rotating shaft 32 becomes small, so that even injection is not performed.

When the diameter of the first air injection hole 34 increases toward the end of the tubular blade 33, it is injected into the tank through the first air injection hole 34 formed in the tubular blade 33 When it becomes possible, it can be sprayed with a uniform air injection pressure.

The combination of the housing 31 and the air supply pipe 10 may be in various forms, but the present invention is preferably made of flange coupling or banding coupling.

First, it will be described when the combination of the housing 31 and the air supply pipe 10 is flanged.

In the air supply pipe 10, as shown in FIGS. 1 and 2, the air supply pipe 10 communicates with the air supply pipe 10 and is provided with a projection 11 formed to protrude upward in a T-shape, and the projection 11 The upper flange 11a is formed at the upper end, and the lower flange 35 is formed at the lower end of the housing 31 so that the upper flange 11a and the lower flange 35 are bolted to the housing 31. It is to be coupled to the air supply pipe (10).

If the combination of the housing 31 and the air supply pipe 10 is described as a banding coupling as follows.

For banding coupling of the housing 31 and the air supply pipe 10, as shown in FIG. 5, it is provided on the lower part of the housing 31, and surrounds the outer periphery of the air supply pipe 10, and the housing 31 To be fixed to the air supply pipe (10) to be provided with a bending fixing portion (36).

The banding fixing part 36 is provided on the lower part of the housing 31 and is made symmetrically left and right to surround the left and right sides of the air supply pipe 10 in a semicircular shape, and is fixed to each other by bolts and nuts.

The upper part of the banding fixing part 36 may be welded or bolted to the lower part of the housing 31.

It is preferable that a second air injection hole 35 is further formed at an outer end of the tubular blade 33.

When a second air injection hole 35 is further formed at the outer end of the tubular blade 33, a region in which compressed air supplied to the tubular blade 33 is sprayed is formed to be wider so that a wider range of sludge It is possible to further improve purification efficiency by preventing accumulation or stagnation.

The tubular blade 33 is preferably formed to protrude radially downward with the same acute angle.

When the tubular blade 33 is formed to protrude radially downward at the same acute angle, compressed air injected by the first air injection hole 34 and the second air injection hole 35 of the tubular blade 33 Since it is possible to inject closer to the air supply pipe 10, it is possible to more easily inject compressed air to the lower portion of the air diffuser, and further prevents sludge accumulation or stagnation under the air diffuser, further improving purification efficiency. Can be improved.

The tubular blade 33 may be provided as one layer, but when it is provided as one layer, the aeration at the top of the exhalation tank, the reaction tank, and the like may not be well transmitted, and thus in FIGS. 1, 2 and 5 As described above, it is preferably provided spaced apart vertically and is formed of an upper and lower layer. As described above, when the tubular blade 33 is provided with an upper and lower layer, the tubular blade 33a located in the upper layer is supplied with compressed air so that aeration in the upper portion of the aerobic tank, the reaction tank, etc. is carried out so as to be diffused. The tubular blade 33b supplies air to the lower portion of the aeration device installed in the aerobic tank, the reaction tank, etc., thereby allowing fine bubbles to be transferred to the lower portion of the aeration device, preventing sludge, etc. from accumulating and solidifying at the lower portion of the aeration device, or stagnation. It is possible to improve purification efficiency by allowing oxygen to be supplied.

In addition, the tubular blade 33a located in the upper layer and the tubular blade 33b located in the lower layer may be rotated in the same direction, and the tubular blade 33a located in the upper layer and the tubular blade 33b located in the lower layer are opposite to each other. It can be rotated. 3 shows that the tubular blade 33a located in the upper layer shown in FIG. 3 and the tubular blade 33b located in the lower layer shown in FIG. 4 rotate in opposite directions.

When the tubular blade 33a located in the upper layer and the tubular blade 33b located in the lower layer are rotated in opposite directions, the first air injection hole 34 formed in the tubular blade 33a located in the upper layer and the lower layer are located in the lower layer. The first air injection holes 34 formed in the tubular blades 33b are symmetrical to each other so as to be positioned in opposite directions to each other, so that the tubular blades 33a located in the upper layer and the tubular blades 33b located in the lower layer rotate in opposite directions. As possible.

When the tubular blade 33a located in the upper layer and the tubular blade 33b located in the lower layer are rotated in opposite directions, they are injected through the first air injection holes 34 formed in the tubular blades 33a and 33b. Since the air is injected in opposite directions, the aeration generated by the air injected through the first air injection hole 34 formed in the tubular blade 33a located at the upper layer and the agent formed at the tubular blade 33b located at the lower layer 1 The aeration generated by the air injected through the air injection hole 34 generates vortices with each other, thereby further improving the purification efficiency.

The technical idea should not be interpreted to be limited to the above-described embodiments of the present invention. Of course, the scope of application is various, and various modifications can be implemented at the level of those skilled in the art without departing from the gist of the present invention as claimed in the claims. Accordingly, such improvements and modifications fall within the protection scope of the present invention as long as it is apparent to those skilled in the art.

10: air supply pipe
11: protrusion
20: air discharge hole
30: air injection unit
31: housing
31a: Air vent
32: rotating shaft
33: tubular blade
34: first air injection hole

Claims (6)

delete delete delete As an air scattering device to supply compressed air so that aeration occurs in the activated sludge method for purifying sewage,
An air supply pipe 10 through which air is supplied from the blower;
A plurality of air discharge holes 20 installed at regular intervals in the air supply pipe 10 and allowing air to be discharged from the air supply pipe 10 upward;
A housing 31 coupled to the air supply pipe 10 so as to communicate with the air discharge hole 20 and having an air exhaust hole 31a formed on an outer periphery,
And a rotating shaft 32 rotatably coupled to the outside of the housing 31,
The air exhaust hole (31a) is formed radially protruding to form a certain angle to the outer periphery of the rotating shaft 32 located on the outside of the housing 31 is formed, the air exhausted from the air exhaust hole (31a) 2 to 6 tubular blades 33 communicating with the inside of the rotating shaft 32 to be supplied,
It is formed so as to form a predetermined interval in the longitudinal direction of the tubular blade 33 on the outer periphery of the lower portion of the tubular blade 33, is communicated with the interior of the tubular blade 33 and supplied into the tubular blade 33 The air is injected to the lower portion so as to be aerated to the lower portion around the rotating shaft 32, the tubular blade at the lower end of the tubular blade 33 has a driving force to rotate the rotating shaft 32 by the tubular blade 33 It is made to include; an air injection unit 30 made of a plurality of first air injection holes 34 formed to form an acute angle from the center of (33),
The tubular blade 33 is formed to protrude radially downwardly at the same acute angle, and is provided to form a top and bottom layer spaced up and down,
The first air injection hole 34 formed in the tubular blade 33a located in the upper layer and the first air injection hole 34 formed in the tubular blade 33b located in the lower layer are symmetrical to each other in opposite directions to each other. Located,
The air injected through the first air injection hole 34 formed in the tubular blade 33a located in the upper layer and the air injected through the first air injection hole 34 formed in the tubular blade 33b located in the lower layer The air diffuser device characterized in that the tubular blades (33a) located on the upper layer and the tubular blades (33b) located on the lower layer are rotated in opposite directions by air. delete delete

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