KR100530529B1 - A Floating Type Air Supplying Apparatus - Google Patents

Abstract

Floating Type Air Supplying Apparatus is provided for biological wastewater and manure, aeration tanks for livestock wastewater treatment facilities.

The buoyancy air diffuser, buoyant member floating on the surface of the aeration tank; and an air supply buoy support body which is radially connected to the lower portion of the buoy member and consists of a buoy support, through which air is supplied through an intersection of the center; And an air supply head connected to the lower end of the air supply buoy support in an arc shape and having a plurality of air diffuser nozzles arranged upward.

According to the present invention, the air can be supplied to the aeration tank at a constant pressure at all times while floating in response to the change in the water level of the aeration tank, and the maintenance is simple and absorbs vibration to extend the life of the device, in particular, Since it is not located on the bottom (floating bottom) and is suspended, even when the air supply is suspended, foreign matter nozzles are not blocked by foreign substances at the bottom of the aeration tank, thereby improving the operation rate of the apparatus.

Description

Buoy-type air diffuser {A Floating Type Air Supplying Apparatus}

The present invention relates to an air supplying device (Air Supplying Apparatus) used in biological wastewater and manure, aeration tank, which is a livestock wastewater treatment facility. Air can be supplied to the aeration tank, and the maintenance is simple and the vibration is absorbed to extend the life of the device. In particular, the air is suspended without being located at the bottom (bottom) of the aeration tank. The present invention relates to a buoy-type air diffuser device that can improve the operation rate of the device because the nozzles of the floor are not blocked by foreign substances at the bottom.

When biologically treating wastewater such as wastewater, manure and livestock wastewater, the process of oxidizing organic matter or ammonia nitrogen by supplying air to microorganisms, which is a key element of wastewater treatment, is essential. As oxygen diffuses into the water, microorganisms use it to oxidize and decompose organic matter, providing energy and purifying wastewater.

By the way, this air supply is essential to maintain the dissolved oxygen concentration in the water, but the oxygen solubility is low, if the oxygen is not always diffused to form a large amount of fine bubbles easily.

Therefore, for this purpose, oxygen is supplied to the water in an aeration type aeration method for supplying air using an aeration device in an aeration tank in which microorganisms live, or a surface aeration method for artificially forming a vortex on the water surface.

At this time, most of the power costs generated during the entire water treatment process is required for the operation of the aeration tank together with the oxygen supply equipment, and thus, the most efforts are given to the aeration equipment when installing the biological wastewater treatment facility.

On the other hand, the conventional diffuser device for supplying such oxygen, although not shown in the drawing, most of the pipes are installed in a grid spaced at regular intervals in the lower portion (bottom side) of the aeration tank, and a diffuser nozzle is installed at a predetermined interval in the aeration tank It is designed to supply air.

By the way, in the conventional diffuser device in which the diffuser nozzle is installed in the lower part of the aeration tank, in the case of using the diffuser nozzle for a long time for wastewater treatment, the diffuser nozzle is detached and the air is concentrated and sprayed to one place, or by the corrosion of the main pipe. Since the air is not supplied to the nozzle or the acid nozzle is fixedly arranged in the lower part of the aeration tank, foreign substances such as sludge accumulated in the lower part of the aeration tank are easily clogged. This also affects the activity of microorganisms, and the efficiency of wastewater treatment is rapidly deteriorated.

On the other hand, in the conventional air diffuser device in which the air diffuser nozzle is fixedly disposed in the aeration tank, if the problem described above occurs, the water in the inside of the aeration tank is stopped and all the water inside the fixed nozzle nozzle and pipes are fixed. Because of the maintenance, a considerable amount of time must be spent on maintenance, which in turn causes a fundamental problem of lowering the overall utilization of the wastewater treatment plant.

That is, the conventional diffuser device up to now has a problem in being fixedly installed in the aeration tank.

On the other hand, such a conventional diffuser device has a different problem because it is installed in a fixed type, for example, the flow rate of the inflow water entering the aeration tank is easy to change, accordingly, the water level of the aeration tank is easy to change.

Therefore, the air pressure injected through the air diffuser nozzle of the air diffuser is constant. When the water level of the aeration tank rises or falls, the head discharge to the air level and the air diffuser fluctuates, so that the air discharge pressure through the air diffuser nozzle changes. It also affects the amount of air discharged through the nozzle.

As a result, the head pressure received by the nozzle of the acid nozzle changes repeatedly due to the fluctuation of the water level in the aeration tank, so that the nozzle of the nozzle is clogged or damaged easily, and when the air pressure and air supply decrease, the efficiency of oxygen transfer to microorganisms decreases and the wastewater treatment efficiency is reduced. It is to lower.

As described so far, it can be seen that it is necessary to maintain a constant discharge pressure of the acid nozzle in order to supply constant oxygen to the microorganisms in the aeration tank.

Meanwhile, a technique for partially solving the above problems has been known. For example, in Korean Patent Laid-Open Publication No. 2002-0094444, a technique for facilitating repair while installing an independent structure has been proposed. The air nozzle is installed in the lower part of the aeration tank, so the air nozzle closing problem due to the change of the aeration amount due to the water level or the sludge is still occurring, and the facility has another problem that is complicated by installing the guide rail.

In addition, the Republic of Korea Patent Publication No. 1984-0000439 provides a cone-shaped diffuser device that the acid group is formed in the lower side in order to prevent clogging of the acid nozzle, but the acid nozzle is also fixed to the aeration tank, the problem described above For example, it is difficult to repair and does not solve the problems such as fluctuations in the amount of air discharge due to the water level change of the aeration tank.

Accordingly, it may be desirable to install an air diffuser including an air diffuser nozzle as a buoy so that the air diffuser nozzle maintains a constant height at the bottom (bottom) of the aeration tank, and has a constant air discharge amount at a certain head state corresponding to the water level of the aeration tank.

The present invention has been made in order to improve the various problems of the prior art as described above, the object of which is to supply air at a constant pressure even in the aeration tank water level change, the maintenance is simple and absorbs vibration to extend the life as well as the aeration tank It is to provide a buoyant air diffuser having a number of advantages that is not located at the bottom so that the air nozzle is not blocked even if the air supply is suspended.

As a technical configuration for achieving the above object, the present invention, in the air diffuser device for supplying oxygen to the microorganisms in the aeration tank, floating capacity so that the lower air diffuser nozzles to maintain a constant interval at the bottom of the aeration tank while floating on the surface of the aeration tank An adjustable buoy member; An air supply buoy support, which is fixed to the lower portion of the buoy member and is composed of a plurality of round bars extending radially horizontally and vertically, through which air is supplied through an intersecting portion of the center; And an arc shape connected to a lower end of the air supply buoy support, and a plurality of air nozzles are arranged upward, and a reinforcement for protecting the head body is connected to the outside, and another air nozzle is provided inside the air supply head. The air supply head body is connected to the inner connector is arranged, characterized in that the buoy configured in aeration tank.

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

1 is a perspective view showing a buoyancy air diffuser according to the present invention, Figure 2 is a schematic configuration diagram showing the aeration tank installation state of the present invention buoyant air diffuser, Figure 3 is a buoyant air diffuser of the present invention A schematic diagram showing the state of use.

In FIG. 1 and FIG. 2, the whole structure of the buoyant air diffuser 1 of this invention is shown as a perspective view and a block diagram, The buoyant air diffuser 1 of this invention is largely the buoy member 10. As shown in FIG. And the air supply buoy support 30 and the air supply head 50, these components 10, 30, 50 will be described in detail as follows.

First, as a whole, the features of the buoy-type air diffuser 1 of the present invention are provided in a state of being suspended in the wastewater 4 in the aeration tank 2, as shown in FIG. 2, so that even if the water level of the aeration tank is changed substantially. The head (the spacing between the water levels) L of the acid nozzles 52 supplying oxygen to the microorganisms in the aeration tank 2 provides the advantage of keeping the air discharge pressure constant. This is because the microorganisms can be constantly supplied with a constant oxygen to the microorganisms.

In addition, it is provided with a buoy in the aeration tank (2) to provide another advantage that the maintenance work is easier than the conventional air diffuser devices fixed to the aeration tank wall fixed at the time of repair.

On the other hand, Figure 1 to Figure 3 shows the buoy member 10 of the buoy-type air diffuser 1 of the present invention, the buoy member 10 of the present invention is configured to float on the surface of the aeration tank, For example, the buoy member 10 may be made of a hollow metal material or a plastic material that is injection molded.

Of course, the metal material may be manufactured in a hollow state while the plate structure is bent and welded, and the plastic injection molding may be performed.

Alternatively, it may be possible to provide floating force by embedding the styrofoam inside the buoy member 10 made of metal or plastic.

Of course, in the case of the metal material, since the buoy member 10 floats on the surface of the aeration tank, the stainless material without corrosion will be most preferable.

And, as shown in Figure 2, the buoy member 10 is an air diffuser installed in the head body 50 in consideration of the weight of the air supply buoy support 30 and the air supply head body 50 to be described later It is preferable that the floating capacity is adjusted so that the nozzles 52 maintain a distance D (Fig. 2) of 0.5-3.5 m at the bottom of the aeration tank.

That is, when the air diffuser nozzle 52 is located within 0.5 m from the bottom of the aeration tank according to the buoyancy force of the buoy member 10, as described in the related art, the aeration tank 2 is used when the use of the air diffuser 1 is long. The amount of foreign matters such as sludge accumulated on the bottom side of the crankcase is increased, so that the nozzles 52 are easily blocked by foreign substances. On the contrary, when the height of the nozzles is higher than 3.5m, the size of the aeration tank 2 that is normally installed is considered. At this time, since air is diffused at a position that is too high, there is a problem of lowering the wastewater treatment efficiency.

Therefore, it is preferable that the buoy member 10 is placed in a position of 0.5-3.5m from the bottom of the aeration tank 52 and the floating force is adjusted.

For example, when calculating the floating force of the buoy member 10, the total volume of the buoy member 10 = (π * 1.5 ² -π * 1.2 ² ) * H (where H is the height of the buoy member).

Therefore, assuming that the total weight of the diffusers such as the air supply head body 50 on which the air supply buoy support 30 attached to the buoy member 10 and the air diffuser nozzles 52 are disposed is about 500 kg, If the value of 500kg or more, at this time, assuming that the buoy member 10 is a circular buoy, the buoy member 10 should be 3m in diameter, 30cm in width, 30cm in height, the buoy height is 30cm In this case, the total buoyancy of the buoy member 10 is 763 kg, so that the air supply buoy support 30 and the air supply head 50 are stably suspended, and the buoy member 10 is approximately in the water of the aeration tank. It is about 19.66 cm submerged, which can be referred to in FIG.

That is, the buoy member 10 is primarily adjusted in size in consideration of the total weight of the air supply head body 50 including the air supply buoy support 30 and the air diffuser nozzle 52. Secondarily, as shown in FIG. 2, the floating force may be adjusted such that the air diffuser nozzles 52 maintain a distance D of 0.5-3.5 m at the bottom of the aeration tank.

As shown in FIGS. 2 and 3, the buoy member 10 may be connected to the aeration tank sidewall with a wire 12 to prevent the diffuser 1 of the present invention from flowing in the aeration tank.

Next, FIGS. 1 to 3 illustrate the air supply buoy support 30 of the air diffuser 1 of the present invention, and the air supply buoy support 30 of the present invention is connected to the buoy member 10. While serving as a support, it is installed to satisfy the function of supplying air to the air supply head 50 at the same time.

That is, as shown in FIGS. 1 and 2, the air supply buoy support 30 is radially connected to the lower part of the buoy member 10, and is configured as a buoy support body, and air is supplied through an intersecting portion of the center. It is configured to be supplied.

In this case, the air supply buoy support 30 is composed of a plurality of round rods that are fixed to the lower portion of the buoy member 10 and laterally extended horizontally and vertically, wherein the air supply buoy support 30 crosses each other. The air supply pipe 32 is connected to the upper center.

In addition, as shown in Figure 1 and 2, the air supply buoy support 30 of the round bar actually serves as a supply pipe for supplying air while supporting the buoy, the air supply buoy support 30 is from above In the cross shape, the cross point in the center of the cross connector (32a) of the cross shape is fitted, the air supply pipe 32 is connected upward.

In addition, the air supply pipe 32 may be connected to the flexible or bellows-type pipe 34 so that high pressure air may be supplied to the air diffuser 1.

In addition, the air supply buoy support 30 is a structure in which a plurality of round rods are connected as connection flanges 36, and the air supplied through one air supply buoy support 30 divides the air diffuser nozzles 52 into air. For example, if the total number of diffuser nozzles 52 is 20, the air volume supplied through the total of five diffuser nozzles 52 is supplied through the air supply buoy support 32 which is one round bar. It would be desirable to configure for constant acid action through the acid nozzle (52).

Next, FIG. 1 and FIG. 2 show the air supply head 50 of the diffuser 1 of the present invention. The air supply head 50 of the present invention is the air supply buoy support 30. Is connected in an arc shape at the lower end of the), a plurality of diffuser nozzles 52 are arranged to be installed upward.

That is, the air supply head 50, as shown in Figure 2, is composed of a circular rod of circular or polygonal cross section of the T-shaped in the lower portion of the four air supply buoy support 30 described above It is connected as the connector 56 and the connecting flanges 58.

And, as described above, the head 50 between the connector 56 is actually five air diffuser nozzles if the air supplied through one air supply buoy support 30 is 20 total nozzles. The air supply amount is distributed and supplied so as to be diffused through 52.

That is, the air supply head 50 is preferably composed of a multi-part to supply air to the air diffuser nozzle corresponding to the one air supply buoy support (30).

On the other hand, as shown in Figure 1, the inside of the air supply head 50 may be connected to the inner connecting pipe 54, the other air nozzle 52a is disposed, which is the arrangement of the air nozzle 52 It is intended to smooth the air supply to the aeration tank 2 by expanding the air diffusion point of the air in the aeration tank 2 to a wider extent.

Of course, in FIG. 1, four air diffuser nozzles 52 are further disposed inward, but the number of arrangements may be adjusted.

1 and 2, the reinforcement body 70 for protecting the head body may be connected to an outer portion of the air supply head 50, and such a reinforcement body 70 may be formed as described above. It is only necessary to connect the reinforcing rod 70 of the arc shape to the connecting pipe 72 connected to the connector 56 of the air supply head 50 so as to cross, so that the air diffuser 1 of the present invention of the buoy is floating. In order to prevent damage to the air supply head 50 in which the air diffuser nozzles 52 are installed even when the wall of the aeration tank 2 is contacted.

Meanwhile, in FIG. 1 and FIG. 2, air diffuser nozzles 52 are installed in the air supply head 50, but a hole may be directly formed in the round bar head 50 so that the air diffuser may directly diffuse without the air diffuser nozzle.

In addition, the installation number of the air diffuser nozzles 52 may also be set in consideration of the size of the air diffuser 1 and the size of the aeration tank 2.

On the other hand, the diffuser nozzle 52 on the air supply head body 50 is formed with fine nozzle holes in one head, the material of the diffuser nozzle 52 is made of stainless steel (STS) grade 304 or more to prevent corrosion It is preferable to, and in view of the size of the conventional aeration tank (2) is preferably arranged about 20, but is not limited thereto.

Although not shown in the drawings, the air supply buoy support 30 and the air supply head 50 may be fixed by a separate support structure.

In addition, it is preferable that the air supply head body 50 is divided into four parts to be inserted or moved so as to correspond to five air diffuser nozzles 52 per one air supply buoy support 30. It may also be possible to divide it into 3-5, considering its size.

Then, the air supply buoy support body 30 and the air supply head body 50 which are immersed in the aeration tank 2 are ground to be cleaned and then painted with white paint in order to clean the outer surface thereof after assembling the pipe. Would be desirable.

On the other hand, looking at the embodiment of the buoyant air diffuser 1 of the present invention, the buoyant air diffuser 1 of the present invention was installed in an aeration tank 2 having a capacity of 2000 m 3 and a microbial concentration of about 3500 ppm.

That is, two air diffusers of the present invention are disposed diagonally in one aeration tank 2 in which waste water having the above capacity and microbial concentration is stored, and 5 Nm 3 of air per minute is supplied to one air diffuser 1.

As a result, in the case of using the acid generator 1 of the present invention, it was possible to maintain the dissolved oxygen concentration of the entire aeration tank 2 at 1.5 ppm or more.

Therefore, when the buoy-type air diffuser 1 of the present invention is used, the diffuser is not only smooth but also kept constant at a constant depth even when the water level of the aeration tank is fluctuated, and the amount of diffuser is very uniform. It can be seen that the maintenance work is easy because it is in a floating state if necessary.

Thus, according to the buoy-type air diffuser of the present invention, since it floats to a certain depth while responding to the water level in the aeration tank, it is not fixed at the time of maintenance work while always producing a constant air, so that it can be easily lifted and repaired.

And, because it is not fixed, the impact of the water flow of the aeration tank is not applied to extend the use surface of the device.

In particular, since the air is sprayed at a constant raised position at the bottom of the aeration tank, the nozzle is prevented from being clogged by foreign matter such as sludge in the aeration tank, thereby providing an excellent effect of increasing the overall wastewater treatment efficiency.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a perspective view showing a buoy air diffuser according to the present invention

Figure 2 is a schematic block diagram showing the aeration tank installation state of the present inventors buoy-type air diffuser

Figure 3 is a schematic diagram showing the use state of the present inventors buoy-type air diffuser

Explanation of symbols on main parts of drawing

1 .... buoy air diffuser 10 .... buoy member

30 .... Air supply buoy support 32 .... Air supply line

34. Air supply bellows pipe 50 .... Air supply head

52,52a .... Air nozzle 54 .... Inner connector

70 .... Reinforcement

Claims (5)

In the air diffuser (1) for supplying oxygen to the microorganisms in the aeration tank (2), Buoy member (10) is installed in the floating capacity so that the air dispersing nozzles 52 on the bottom of the aeration tank to maintain a predetermined interval (D) at the bottom of the aeration tank; An air supply buoy support 30 which is fixed to the bottom of the buoy member 10 and consists of a plurality of round bars extending radially horizontally and then vertically, through which air is supplied through an intersection of the centers; And The lower end of the air supply buoy support 30 is connected in an arc shape, a plurality of air nozzles 52 are arranged in an upward direction, the reinforcement 70 for the protection of the head is connected to the outside, the air An air supply head body 50 to which an inner connector pipe 54 in which another air diffuser nozzle 52a is disposed, is connected inside the supply head body 50; Buoy air diffuser, characterized in that installed as a buoy in the aeration tank including The method of claim 1, wherein the buoy member 10 is made of a circular body of metal or plastic with a hollow inside or a styrofoam embedded therein, Buoy air diffuser device, characterized in that the spacing (D) between the diffuser nozzles 52 and the bottom of the aeration tank of the buoy member 10 is configured to be maintained at 0.5-3.5m The buoy air diffuser device according to claim 1, wherein an air supply pipe (32) is connected to an upper center at which the air supply buoy supports (30) cross each other. According to claim 1 or claim 3, wherein the air supply head 50, the cross-section is composed of a round or polygonal round bar, the air supply head 50 is provided to one air supply buoy support 30 A buoy-type air diffuser comprising a multi-segment for supplying air to the diffuser nozzles correspondingly. delete