KR101274532B1 - Submersible aerator - Google Patents

Abstract

PURPOSE: A submersible aerator is provided to facilitate maintenance and a repair by easily salvaging when a malfunction of the submersible aerator is created by foreign substances. CONSTITUTION: A submersible aerator(1) comprises a distribution unit, an air supplying unit, and a driving unit. A first distribution pipe having a first distribution hole is installed in a radial shape in the distribution unit in order to discharge air and waste water in the radial shape on a top of a base. The air supplying unit comprises an air supplying pipe, a case, a second distribution pipe, a support bar, a diffuser, and a housing. The driving unit comprises a motor in which an impeller is installed in order to supply air and waste water as a distribution unit. The air supplying unit and the driving unit are combined into one body and installed to separable from a distribution unit.

Description

Submersible Aerators

The present invention relates to an aquatic aerator, and more particularly, the aerobic microorganism that feeds organic matter by allowing air bubbles to be diffused to a part far away from the aerator, instead of being ejected only around the aerator. The present invention relates to an aquatic aerator that can proliferate to induce a reduction in organic matter and at the same time facilitate maintenance of an aqua aerator installed in a wastewater treatment tank.

In general, a method for treating wastewater by microorganisms is a method of gradually reducing organic matter by proliferating aerobic microorganisms that feed organic matter contained in wastewater.

Purification by aerobic microorganisms requires the creation of an environment suitable for living microorganisms while the organic matter that is fed by the microorganisms continues to be supplied.

There is a need for an apparatus for increasing and aerobicizing dissolved oxygen in waste water. Such an apparatus is called an underwater aerator (or aerator).

This aerator is mentioned in the Republic of Korea Patent Registration No. 0876203, this configuration is negative pressure (Negative pressure) generated by the rotational force of the impeller (3) connected to the underwater motor (1), as shown in Figures 1 to 4 The treatment water (waste water) is sucked from the upper portion of the suction housing 5 and discharged downward, and the air discharged into the diffuser 7 is piggybacked in the discharge direction of the treated water. By discharging through several diffuser ports 9, the amount of dissolved oxygen is continuously maintained or increased in the treated water to create an environment for activating aerobic microorganisms.

On the other hand, when the impeller 3 and the diffuser port 9 are viewed in a plane (direction from top to bottom) as shown in the drawing, the diffuser ports 9 are divided into six equal parts around the central impeller 3. In this case, as the impeller 3 rotates, water flow and air bubbles are divided and discharged in all directions through the diffuser port 9.

However, the conventional diffuser port 9 may be affected by diffusion efficiency depending on the shape of the aeration tank 10.

In this case, as shown in the drawing, when the aeration tank 10 is square, the distance between the aerator and each side of the aeration tank is uniform, so that the diffuser port 9 can evenly diffuse the air bubbles even if the existing shape is maintained. There will be no problem.

However, a problem arises when the aeration tank 10 is rectangular.

That is, as shown in the drawing, if the aeration tank 10 is rectangular and the diffuser ports 9 are arranged at equal intervals, the air is directed toward the long side 10a of the aeration tank 10 located at a close distance from the diffuser port 9. While the droplet is reached within a short time, not only is it reached relatively late in the direction of the short side 10b, but the amount of air bubbles reached is not enough, resulting in an imbalance of diffusion.

Moreover, the air bubbles sent in the long side 10a direction are discharged to the outside after hitting the long side 10a so as to rise above the water surface. This is followed by a reduced closure.

On the other hand, the same problem occurs when the obstacle (a) is located in front of the diffuser port (9).

That is, when there is an obstacle (a) in front of the specific diffuser port (9) as shown in the drawing, the air bubbles discharged from the specific diffuser port (9a) is turned in the other direction while the path is hindered by the obstacle (a) There is a problem that the air bubbles do not diffuse or delay the diffusion behind the obstacle (a).

In addition, since the length of the diffuser port 9 is short as shown in the drawing, air bubbles are diffused only in a portion where the diffuser port is located, and air bubbles are very difficult to diffuse in a part far from the diffuser port. The growth of microorganisms does not occur smoothly, there is a problem that does not properly clean the waste water.

In order to solve the above problems, the present invention is to increase the dissolved oxygen of the waste water by increasing the length of the diffuser port to reach a far distance during the discharge of the air aerators to facilitate aerobic aerobic microorganisms The purpose is to provide.

In addition, it is easy to reduce the organic matter contained in the waste water, and at the same time to separate the housing and the air inlet from the diffuser, it is easy to lift the underwater aerator due to the foreign matter contained in the waste water. Its purpose is to provide an underwater aerator for easy maintenance.

The present invention for achieving the above object is a submerged aerator, the base is formed with a coupling groove, the first distribution port is formed so that water (waste water) can be discharged radially on top of the base with air Distribution means provided with a radial distribution pipe; An air supply pipe formed with an air discharge pipe so as to supply air from the ground to the inside of the water purification tank, a case having a coupling hole formed in the inner bottom with the upper portion open to allow the air supply pipe to be coupled, and A second distribution pipe is installed radially with a second discharge port around the case so that water (waste water) can be discharged, and a support bar installed under the case so as to maintain the same height as the distribution means, and installed inside the case. A diffuser coupled to the air discharge pipe that is inserted into the fastening hole and installed; Air supply means having a guide bar guided to the air supply pipe and configured to be moved up and down and fixed to the case by a bolt; It comprises a drive means consisting of a motor installed with an impeller so that air and water (waste water) can be supplied to the distribution means, the air supply means and the drive means are integrally coupled to be installed detachably from the distribution means An underwater aerator is provided.

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In addition, the first distribution pipe is an aquatic aerator, characterized in that the one end (water (discharged water is discharged) is formed narrower than the portion where the water (waste water) is introduced to increase the pressure in the distribution means) To provide.

In the present invention, by separately installing a second distribution pipe extending from the first distribution pipe to allow the waste water to reach a distant position with air, dissolved oxygen increases in the aeration tank, thereby accelerating the aerobic microbial aerobic microbial wastewater in the aeration tank. The purification effect is very excellent.

In addition, unlike the conventional underwater aerator, because only the driving means and the air supply means to lift the maintenance is very convenient effect.

In addition, in the prior art, when assembling each part in advance on the ground, because the weight is very heavy, each part was assembled in the aeration tank without pre-assembly, but the present invention is assembled in the aeration tank after each means in advance in the aeration tank The installation of underwater aerators through simple assembly also shortens the construction period.

1 is a perspective view showing a conventional water aerator.
Fig. 2 is a longitudinal sectional view of Fig. 1; Fig.
3 is a schematic view of a conventional diffuser port in a plan view, where the aeration tank is square;
4 is a schematic view of a conventional diffuser port in plan view, where the aeration tank is rectangular;
5 is an exploded perspective view showing an underwater aerator according to the present invention.
FIG. 6 is an exploded perspective view showing the configuration of the underwater aerator of FIG. 5. FIG.
7 is a front view showing the configuration of the underwater aerator of FIG.
8 is a cross-sectional view showing a coupling configuration of FIG.
9 is a configuration diagram showing another embodiment of the first distribution pipe of FIG.
FIG. 10 is a perspective view of the underwater aerator showing another embodiment of FIG. 5. FIG.
FIG. 11 is a perspective view of an underwater aerator showing another embodiment of FIG. 10.

Hereinafter, described in detail with reference to the accompanying drawings the underwater aerator according to the present invention.

5 is an exploded perspective view showing the underwater aerator according to the present invention, FIG. 6 is an exploded perspective view showing the configuration of the underwater aerator of FIG. 5, FIG. 7 is a front view showing the configuration of the underwater aerator of FIG. 5, and FIG. 8 is a cross-sectional view showing a coupling configuration of Figure 5, Figure 9 is a block diagram showing another embodiment of the first distribution pipe of FIG.

As shown in FIGS. 5 to 9, the underwater aerator 1 according to the present invention is largely divided into a distribution means 100, an air supply means 200, a driving means 300, and an air injection means 400. It consists of.

The distribution means 100 is formed in a circular shape is formed a base 110, a plurality of coupling grooves 111 are formed in a predetermined position, the first discharge port 121 is formed to discharge the water together with air The first distribution pipe 120 is radially installed on the base 110.

Fixing bars 130 are installed at the lower end of the first distribution pipe 120 to support the first distribution pipe 120 installed at equal intervals on the upper portion of the base 110.

The fixing bar 130 may be provided with a fixing member (not shown) according to the place where the underwater aerator 1 is installed so that the fixing bar 130 may be fixed without flow even by vibration by the driving means 300.

The first distribution pipe 120 is not limited to the quadrangular shape as shown in the drawing, and may be formed by varying the shape according to the width of the aeration tank (not shown).

As an example, as shown in Figure 9, when the air and water (waste water) is discharged by the air supply means 200 and the drive means 300, the internal pressure of the first distribution pipe 120 acts high It characterized in that the end of the first distribution pipe 120 is narrowly formed so that the discharged air and water (waste water) can be strongly discharged.

The air injection means 400 includes a plurality of air injection pipes 410 connected from the ground to the inner bottom of the aeration tank so that air can be supplied by a blower (not shown) installed on the ground of the distribution means 100. It is installed in the coupling groove 111 formed in the base 110, the air discharge pipe 411 is installed between the air injection pipe 410 to supply air.

In addition, the case 220 having a coupling hole 221 at an inner lower portion so as to receive air from the air injection tube 410 and having a fastening hole 222 formed in an open state is an air discharge tube 411. Is coupled to.

A second distribution pipe 230 is formed around the case 220 so that water (wastewater) can be discharged together with air at a predetermined interval, and a second discharge port 231 is formed in the second distribution pipe 230. Is formed.

The second distribution pipe 230 is characterized in that the number and location of the first distribution pipe 120 installed in the base 110 is the same.

An upper part of the air discharge pipe 411 inserted into the coupling hole 221 is provided with a diffuser 250 formed in a '∩' shape to distribute and discharge air in all directions.

In the state in which the diffuser 250 is installed inside the case 220, an upper portion of the second distribution pipe 230 has a fixing protrusion 261 so that the driving means can be installed, and a through hole 262 penetrating from the upper portion to the lower portion. The formed housing 260 is installed.

A plurality of screw holes (unsigned) are formed in the case 220 around the bottom of the housing 260 at equal intervals.

Guide bars 264 are installed at both sides of the housing 260 to allow the air injection pipe 410 to be positioned.

The driving means 300 is a motor 310 is provided with a motor bracket 311 at regular intervals to be coupled to the housing 260 of the air supply means 200, the motor 310 of the The impeller 320 is coupled to the rotating shaft of the motor to allow water to flow into the housing by the driving force.

The underwater aerator 1 according to the present invention is not limited to the above configuration and may be configured as follows.

Another embodiment of the underwater aerator 1 according to the present invention will be described with reference to the accompanying drawings.

FIG. 10 is a perspective view of an underwater aerator showing another embodiment of FIG. 5, and as shown in FIG. 10, the present invention, as shown in the drawing, shows an air supply means in the configuration shown in FIGS. Since the configuration of the 200 and the driving means 300 is the same, a description thereof will be omitted, and only the distributing means 300 having a difference in the configuration will be described.

As shown in FIG. 10, the distribution means 100 includes a base 110 in which fitting grooves 111a are symmetrically formed on an outer circumference thereof so as to be coupled to the plurality of air injection pipes 410.

The first distribution pipe 120 is radially configured to be coupled to protrude slightly to the top of the base 110 to have a predetermined length on the side thereof, and the first distribution pipe 120 has the air supply means 200. ) And the first discharge port 121 is formed so that water is discharged together with the air by the driving means 300.

A fixing bar 130 for fixing a position is installed at a lower side of the base 110 and the first distribution pipe 120, and a fixing hole is fixed to the bottom of the aeration tank at a lower portion of the fixing bar 130. The fixing panel 140 in which the 141 is formed is installed.

FIG. 11 is a perspective view of an underwater aerator showing another embodiment of FIG. 10, and as shown in FIG. 11, the air supply means 200 and the driving means 300 are identical in the configuration shown in FIGS. 5 to 9. Since the configuration description thereof is omitted, only the configuration of the distribution means 100 having a difference will be described.

As shown in Figure 11, the distribution means 100 is configured so that a plurality of base 110 consisting of a half-moon type is installed so as to be located on both sides around the air injection pipe 410, the overall shape is circular Install to be done.

A plurality of first distribution pipes 120 are radially installed such that water (waste water) may be discharged together with air supplied from the air injection means 400 along the side of the base 110.

As shown in the drawing, the first distribution pipe 120 extends a predetermined length toward the side of the base 110 so that air mixed with water (waste water) can be supplied from the aerator 1 to a distant position. Is installed.

A fixing bar 130 is installed at the bottom of the first distribution pipe 120 where the first discharge port 121 is formed to support the weight and to be fixed at a stable position.

When the distribution means 100 is installed in the aeration tank, a lower portion of the fixing bar 130 is provided with a fixing panel 140 having a fixing hole 141 formed therein to prevent flow by the driving means 300. do.

A screw or anchor bolt is coupled to the fixing hole 141 installed in the fixing panel 140 so that the distribution means 100 is fixed to the bottom of the aeration tank.

Referring to the operation of the underwater aerator according to the present invention configured as described above are as follows.

The process of installing the underwater aerator 1 of the present invention will be described with reference to the underwater aerator shown in FIG. 5, and the configuration shown in FIGS. 10 and 11 is a process for anyone skilled in the art to install based on FIG. 5. Since the installation process can be easily performed, the installation process is omitted.

First, a lower portion of the air injection pipe 410 in a state in which a plurality of air injection pipes 410 are positioned from the top of the aeration tank to the bottom so that air can be supplied through a blower (not shown) inside the aeration tank (not shown). Fix bolt to bottom of aeration tank by attaching bolt to fixing piece (unsigned) installed in

At this time, between the air injection pipe 410 is fixed to the bottom of the aeration tank in the air discharge pipe 411 is coupled state.

The distance of the plurality of air injection pipe 410 is fixed in a state in which the distance that can be fitted to each of the plurality of coupling grooves 111 or the fitting groove 111a formed in the base 110 of the distribution means 100 are spaced apart from each other. .

Distributing means 100 is installed in the state in which the air injection pipe 410 is installed in the aeration tank. In this case, the coupling groove 111 formed in the base 110 is coupled to the air injection pipe 410 in the bottom of the aeration tank. To fix it.

At this time, the distribution means 100 does not have to be fixed or fixed according to the circumstances of the aeration tank, which is because the air injection pipe 410 is coupled to the coupling groove 111 formed in the base 110 of the air supply means 200 The phenomenon that the distribution means 100 is moved by vibration by the movement or the driving means 300 is prevented.

In addition, since the air injection pipe 410 is fixed to the bottom of the aeration tank, fixing the distribution means 100 to the bottom of the aeration tank can be selectively performed.

The case 220 of the air supply means 200 is installed in a state in which the distribution means 100 is installed in the air injection pipe 410.

At this time, one side of the air discharge pipe 411 is coupled to the coupling hole 221 formed inside the case 220 so as to couple the diffuser 250 to an upper portion thereof.

The diffuser 250 is coupled through the fitting method to facilitate separation and coupling from the air discharge pipe 411 during future maintenance.

At this time, the diffuser 250 is installed so as to be spaced at a fine height from the inner bottom of the case 220 so that the air introduced through the air injection pipe 410 is 360 degrees with the bottom side of the case 220 by the diffuser 250 In order to discharge in the direction so that the discharge is made smoothly through the second discharge port 231 of the second distribution pipe (230).

When the case 220 is located inside the distribution means 100, the second distribution pipe 230 protruding radially is the same direction as the direction in which the first distribution pipe 120 of the distribution means 100 is located. Located in the water is discharged smoothly with the water (waste water).

In the state in which the diffuser 250 is installed inside the case 220, a housing 260 is installed at an upper portion of the case 220, wherein the housing 260 is formed at a position where the fastening hole 222 formed on the case 220 is formed. In the state that the screw hole (unsigned) of 260 is located, it is fixed using a normal bolt.

At this time, the guide bar 264 provided on both sides of the housing 260 is fixed in a state that is positioned on one side of the air injection pipe 410 to lift the air supply means 200 and the driving means 300. It can serve as a guide.

The drive unit 300 is coupled to the upper portion of the housing 260 in a state in which the housing 260 is installed on the case 220. In this case, the motor bracket 311 is installed on the motor 310 in advance on the ground. The impeller 320 is fixed to the housing 260 in a state of being coupled to a rotating shaft (not shown) of the motor 310.

The driving means 300 is coupled to the motor bracket which is installed at equal intervals around the motor 310 in a state in which the impeller 320 coupled to the rotating shaft of the motor 310 is positioned inside the housing 260. 311 is coupled to the fixing protrusion 261 formed on the housing 260 to be bolted through.

Although not shown, a power line (not shown) is connected to drive the motor 310.

When water (wastewater) flows into the aeration tank in the state as installed above, and then drives the motor 310 of the driving means 300, the impeller 320 coupled to the rotation shaft of the motor 310 is rotated by the driving force and the air is rotated. Water (waste water) located on the upper part of the radar 1 flows into the housing 260.

At the same time as the waste water is moved from the upper portion of the housing 260 to the lower portion, air is introduced through the air injection pipe 410, and the introduced air is introduced into the case 220 again through the air discharge pipe 411. It is to be discharged into the space between the diffuser 250 and the bottom of the case 220.

When the air is discharged between the diffuser 250 and the bottom of the case 210, the air is mixed with the water (waste water) moving from the upper portion of the housing 260 to the lower side and discharged toward the distribution means 100.

When the air and water (waste water) is discharged to the distribution means 100, the first distribution pipe 120 of the distribution means 100 serves as a guide so that the air can reach a distant position.

As described above, by separately installing the first distribution pipe 120 extending from the second distribution pipe 230 so that water (wastewater) is reached with the air to a distant position, dissolved oxygen increases in the aeration tank, and Due to the acceleration of aerobic microorganisms there is an advantage that the purification of the waste water in the aeration tank is very excellent.

The distribution means 100 of the present invention shown in Figures 10 and 11 is installed through the above process, the distribution means 100 of Figure 11 is composed of a plurality of base 110, a plurality of base ( 110, when the first distribution pipe 120 is formed on one side as shown in Figure 11 by coupling the bolt to the fixing hole 141 of the fixing panel 140 formed at the bottom of the fixing bar 130, the bottom of the aeration tank Secure in.

When the base 110 of the distribution means 100 is configured to be separated as described above, it is to prevent the position thereof from being changed by vibration during supply of air and supply of water (waste water).

As shown in FIG. 11, since each part is configured by dividing, there is an advantage in that the construction period is very shorter than that of the prior art because it is assembled in advance on the ground and then simply installed in the aeration tank by fastening.

When the air and water (waste water) is discharged to the distribution means 100, at this time, the first distribution pipe 120 of the distribution means 100 serves as a guide so that the air can reach a distant position is dissolved in the aeration tank Oxygen increases, thereby accelerating the aerobic microbial aerobic microorganisms, the purification of the waste water in the aeration tank is very excellent.

In addition, unlike the existing underwater aerators because only the lifting means 300 and the air supply means 200 has the advantage of very convenient maintenance.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: distribution means 110: base
111: engaging groove 111a: fitting groove
120: first distribution pipe 121: first discharge port
130: fixed bar 140: fixed panel
141: fixing hole 200: air supply means
220: case 221: coupling hole
222: fastening hole 230: second distribution pipe
231: second discharge port 240: support bar
250: diffuser 260: housing
261: fixing protrusion 262: through hole
263: threader 264: guide bar
300: driving means 310: motor
311: motor bracket 320: impeller
410: air injection pipe 411: air discharge pipe

Claims (6)

In the water aerator,
A distribution means comprising a base having a coupling groove formed therein, the first distribution pipe having a first distribution pipe formed radially on the top of the base such that water (waste water) can be discharged with air;
An air supply pipe formed with an air discharge pipe so as to supply air from the ground to the inside of the water purification tank, a case having a coupling hole formed in the inner bottom with the upper portion open to allow the air supply pipe to be coupled, and A second distribution pipe is installed radially with a second discharge port around the case so that water (waste water) can be discharged, and a support bar installed under the case so as to maintain the same height as the distribution means, and installed inside the case. A diffuser coupled to the air discharge pipe that is inserted into the fastening hole and installed; Air supply means having a guide bar guided to the air supply pipe and configured to be moved up and down and fixed to the case by a bolt;
It comprises a drive means consisting of a motor installed with an impeller so that air and water (waste water) can be supplied to the distribution means, the air supply means and the drive means are integrally coupled to be installed detachably from the distribution means Underwater aerator.
delete delete delete delete The method of claim 1,
The first distribution pipe is an aquatic aerator, characterized in that the one end (water (discharged water is discharged) is formed narrower than the portion where the water (waste water) is introduced so as to increase the pressure in the distribution means.

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