KR100786321B1 - Aeration tank for waste water treatment apparutus - Google Patents

Abstract

An aerating tank for a sewage and wastewater treating apparatus is provided to maximize dissolved oxygen within sewage and wastewater, thereby improving digestion performance and purification performance of organic materials, by installing a rotating fan at an underwater motor to mix sewage and wastewater efficiently. An underwater motor(2) is downwardly installed in the center of an upper space of a storage tank(1). A rotating fan(3) is installed at the underwater motor, wherein the rotating fan is rotated by the underwater motor. A cover(10) having an inflow port is disposed below the underwater motor. The cover has a hat shape of which an upper portion is narrow and a lower portion is wide. The rotating fan and an end portion of an oxygen supply pipe(21) connected to an oxygen generator are positioned within the inflow port of the cover. The cover is fixed by at least two to five supports(4,4') such that the cover is distanced from the underwater motor. The supports connect an outer surface of the underwater motor and a front end of the inflow port.

Description

Aeration tank for waste water treatment apparutus that maximizes microbial activity and dissolved oxygen

1 is a general configuration of a general wastewater treatment apparatus

2 is a cross-sectional configuration diagram of an aeration tank used in a conventional wastewater treatment apparatus

3 is a perspective view showing an aeration tank for a wastewater treatment apparatus according to the present invention;

Figure 4 is a side cross-sectional view showing an aeration tank for a waste water treatment apparatus according to the present invention.

5 is a cross-sectional view showing an operating state of the aeration tank for wastewater treatment apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

1: reservoir 2: underwater motor

3: circulation fan 4,4 ': support

10 cover 11 inlet

20: oxygen generator 21: oxygen supply pipe

30: holder

The present invention relates to an aeration tank of a sewage and sewage and wastewater treatment apparatus, and more particularly, a downward submersible motor is mounted on the upper part of the aeration tank, and underneath the submersible motor, a cover in the form of a lampshade of upper and lower beams is installed. In the center of the cover, a circulation fan and an oxygen supply pipe connected to the submersible motor are mounted so that the wastewater and wastewater in the aeration tank are circulated by the circulation fan according to the operation of the submersible motor, and the supplied oxygen is stagnated in the cover. It is about the aeration tank of the wastewater treatment device which maximizes the amount of dissolved oxygen in the wastewater, thereby maximizing the activity of the microorganisms and the amount of dissolved oxygen through the excellent activation of the microorganisms and the digestive power and purification ability.

The general sewage and wastewater treatment apparatus is purified through a flow control tank 100, an anaerobic tank 110, an intermittent aeration tank 120, and a sedimentation tank 130 connected to the inflow pipe of wastewater as shown in FIG. As it is discharged in a controlled state, the flow rate adjustment tank 100 serves to keep the flow rate of the waste water and waste water required for purification while the microorganisms are put into the reaction, and the anaerobic tank 110 is agitated under anoxic conditions. Is installed to suppress the settling of sludge and organic matter, the intermittent aeration tank 120 has an interval of 50 minutes operation and 10 minutes stop supplying oxygen into the aeration tank to digest the organic matter by microorganisms in wastewater and waste water. By accelerating, it plays a role to purify the waste water and waste water.

In addition, in the settling tank 130, the sludge and inorganic materials of the undecomposed state contained in the waste water and the waste water in the aerated tank 120 are precipitated, collected and transported, and the purified water is discharged to the outside. It is composed.

At this time, the aeration tank (曝氣 槽, aeration tank, aeration tank) is a kind of reactor used in the wastewater treatment using the active sludge method, aeration is a term used in sewage treatment to blow air into the water or water in the air It refers to an operation in which water is sprayed to bring sufficient contact between water and air.

Through this manipulation, the oxidation and aerobic digestion by the bacteria is promoted, and the microorganisms remove carbon dioxide, hydrogen sulfide, methane gas, etc. by the digestion. In other words, it is a method of aeration of sewage to allow microorganisms to purify water.

Here, in the general aeration tank as described above, as shown in FIG. 2, an air injection pipe 122 is installed on the inner bottom of the storage tank 121, and a plurality of air discharge ports 123 and 123 are provided from the air injection pipe 122. By forming a branch upwardly '), the air discharged from the air discharge ports 123 and 123' is absorbed into the waste water and the waste water, thereby increasing the dissolved oxygen amount, thereby promoting the activation of microorganisms.

However, in the aeration tank as described above, since the air discharged from the air discharge port does not have sufficient residence time in the wastewater and wastewater, it floats quickly and disappears as it is, so that the dissolved oxygen in the wastewater is reduced compared to the amount of air provided. The situation is not increasing significantly.

That is, the higher the amount of dissolved oxygen, the better the activation of microorganisms. The aeration tank having the structure as described above rapidly increases the air provided from the bottom of the aeration tank and disappears into the air. Only the parts within the area are activated and the purification capacity is reduced and excessive reaction time is required. As the reaction time becomes longer, a large aeration tank must be manufactured and operated to purify a large amount of wastewater and wastewater. It is irrational.

The present invention has been made to improve the problems as described above, equipped with a submersible motor mounted to the lower side to the upper side of the aeration tank and the submersible motor is equipped with a circulation fan, the lower side of the underwater motor having an inlet in the center Mounting the cover of the shade of the upper side light, by forming the oxygen supply pipe to the cover front end to the inside,

The continuous circulation of wastewater and wastewater is made according to the operation of the submersible motor, and the circulation fan flows into the center of the cover and diffuses and distributes the wastewater under the cover to improve the mixing ratio. Oxygen discharged through the oxygen supply pipe at the same time as the circulation of the wastewater and wastewater is retained for a certain time in the cover of the lampshade, and is broken finely inside the wastewater according to the circulation flow of the wastewater. By maximizing the amount of dissolved oxygen in the wastewater, it contributes to the activation of microorganisms, which greatly improves the digestibility and purification ability of organic matters, which shortens the purification time and greatly improves the treatment speed. It is an object of the present invention to provide an aeration tank for a wastewater treatment apparatus that maximizes the amount of active and dissolved oxygen. .

Hereinafter, preferred embodiments of the present invention will be described.

3 is a perspective view showing an aeration tank for a wastewater treatment apparatus according to the present invention, Figure 4 is a side cross-sectional view showing an aeration tank for a wastewater treatment apparatus according to the present invention.

The underwater motor 2 is mounted downward in the upper center of the reservoir 1, and the circulation motor 3 is mounted on the underwater motor 2 so that the circulation fan 3 is rotated by the driving of the underwater motor 2. ,

On the lower side of the submersible motor 2 to form a cover 10 in the form of a lampshade of upper and lower light having an inlet 11 in the center,

Inside the inlet 11 of the cover 10 is the circulation fan 3 is located, the end of the oxygen supply pipe 21 connected to the external oxygen generator 20 is located together,

The cover 10 extends downwardly under the submersible motor 2 by at least two to five supports 4, 4 ′ connecting the outer surface of the submersible motor 2 and the tip of the inlet 11. It is configured to be spaced apart in the form.

In the figure, reference numeral 30 is a holder.

When described in more detail by the accompanying drawings the action of the aeration tank of the wastewater treatment apparatus to maximize the microbial activity and dissolved oxygen amount of the present invention by the above configuration as follows.

The aeration tank according to the present invention increases the circulation rate of dissolved sewage and wastewater and the amount of dissolved oxygen, thereby accelerating the decomposition effect of organic matter by microorganisms. As well as the continuous and active circulation process, the delay and stagnation time of the supplied oxygen is as long as possible to enable active digestion of microorganisms by the oxygen.

That is, the aeration tank of the present invention is provided with a large storage tank 1 for purifying sewage, sewage, and wastewater, and the underwater motor 2 is mounted downward by the fixing rod 30 on the upper side of the storage tank 1. , The underwater motor (2) is sedimented by sewage and waste water, or is capable of driving without difficulty even in the underwater state.

In addition, since the circulation fan 3 is mounted on the rotating shaft of the submersible motor 2, when the power is applied and driven to the submersible motor 2, the circulation fan 3 interlocks and rotates together.

Particularly, the cover 10 is formed in the shape of a lampshade of the upper and lower light is formed below the submersible motor 2, the cover 10 is supported downward spaced from the submersible motor 2, the cover 10 In the center of the) is a through-flow inlet 11 that can accommodate the circulation fan (3) is formed.

The cover 10 is fixedly installed by a plurality of supports 4, 4 ′ fixed downward from the side of the submersible motor 2, and positioned inside the inlet 11 of the cover 10. When the circulation fan 3 is rotated, the fluid to be circulated is introduced into the inlet 11 through the supports 4 and 4 'and diffused and discharged through the entire lower cover 10. As a result, it has a circulating flow which flows in upward and discharges downward.

In addition, a separate oxygen supply pipe 21 is coupled to the inlet 11, and an end of the oxygen supply pipe 21 is located inside the inlet 11 toward the circulation fan 3. The oxygen supply pipe 21 is connected to a separate oxygen generator 20 provided outside the storage tank 1, and when the oxygen generator 20 is operated, the oxygen supply pipe 21 of the inlet 11 is connected to the oxygen supply pipe 21. It will supply oxygen inside.

Therefore, sewage and wastewater having a certain level in the reservoir 1 as shown in FIG. 5 flows in from the upper side of the inlet port 11 by the driving of the underwater motor 2 and the rotation of the circulation fan 3. It is to maintain a continuous mixing state through the circulation flow that is spread through the lower cover 10,

Oxygen supplied toward the inside of the inlet 11 is to supply oxygen directly to the circulated wastewater and wastewater, as well as to break the oxygen into a high-speed rotating circulation fan 3 to improve oxygen absorption rate. , Oxygen remaining in the form of bubbles in the waste water remains for a considerable time inside the freshly shaped cover 10 as described above, so that the dissolved oxygen can be maximized by remaining in the waste water for a relatively long time. It is.

Therefore, the aeration tank according to the present invention not only continuously and evenly mixes and circulates sewage, wastewater and wastewater, but also smashes the bubble-type oxygen into a very small foam form to provide the wastewater in the wastewater, while rapidly supporting the oxygen to provide outside air. The cover 10 in the form of a shade to prevent the loss of the inside of the oxygen, waste water in the waste water extends as much as possible, thereby greatly increasing the dissolved oxygen content of the waste water, waste water, excellent activation of microorganisms Of course, since evenly digestion and decomposition occurs throughout the reservoir (1), the purification rate is also greatly improved.

Therefore, the aeration tank of the present invention has a much faster purification treatment time than the conventional one, so that the amount of purification of sewage and wastewater is increased, and even if a storage tank having a smaller size is provided, a larger amount of sewage can be obtained by the rapid purification treatment time. And the ability to purify the waste water.

The aeration tank of the wastewater treatment apparatus for maximizing the activity of the microorganisms and dissolved oxygen as described above enables the continuous circulation of the wastewater according to the operation of the underwater motor, and the circulation fan rotates the wastewater. It is introduced into the center of the cover and diffused to the lower side of the cover to improve the mixing rate.Oxygen discharged through the oxygen supply pipe at the same time as the circulation circulation of wastewater and wastewater by the circulation fan stays in the cover of the shade for a certain time. Of course, the crushed waste inside the wastewater and wastewater will be finely broken according to the circulating flow of the wastewater, thereby maximizing the dissolved oxygen in the wastewater and contributing to the activation of microorganisms. The purification time is shortened as well as the processing speed is greatly improved, so it has very reasonable and economical features.

Claims (1)

The underwater motor 2 is mounted downward in the upper center of the reservoir 1, and the circulation motor 3 is mounted on the underwater motor 2 so that the circulation fan 3 is rotated by the driving of the underwater motor 2. , On the lower side of the submersible motor 2 to form a cover 10 in the form of a lampshade of upper and lower light having an inlet 11 in the center, Inside the inlet 11 of the cover 10 is the circulation fan 3 is located, the end of the oxygen supply pipe 21 connected to the external oxygen generator 20 is located together, The cover 10 extends downwardly under the submersible motor 2 by at least two to five supports 4, 4 ′ connecting the outer surface of the submersible motor 2 and the tip of the inlet 11. Aeration tanks for wastewater treatment devices that maximize the microbial activity and dissolved oxygen, characterized in that the configuration is spaced apart in a fixed form.

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