KR200306922Y1 - Screw-type aerator for a sewage disposal - Google Patents

Abstract

The present invention relates to a screw-type aerator for wastewater treatment, and more particularly, to an intake unit with an intake fan for forcibly inhaling air from the outside at the rear end of the aeration body integrally with the stirring screw at the end. Is formed and fixedly installed by inserting a screw propeller for forcibly transferring the air sucked by the intake fan to the inside of the drive hollow shaft communicating with the intake unit, and to the intake fan built in the intake unit and the screw propeller embedded in the drive hollow shaft. By improving the air supply efficiency to significantly increase the amount of oxygen introduced into the wastewater, and relates to a screw-type aerator for wastewater treatment to further enable the aerobic wastewater treatment capacity.

The present invention has a shatterproof plate (4) is formed on the outside front of the main body (2) and the support (3) is installed on the outside rear, and the drive motor (8) is fixed to the inner rear half, the drive motor (8) On one side of the screw type aeration machine is provided with a driving hollow shaft (5) formed with a stirring screw (6) at the end and through the air opening and closing valve (12) in communication with the driving hollow shaft (5) In the rear end of the main body 2 of the aerator, a plurality of intake holes 18 are formed through the outer surface and the intake unit 15 is fixed to the fan motor 16 with the intake fan 17 attached to the inside ) Is integrally formed, and the screw propeller (7) is inserted into and fixed to the rear half of the driving hollow shaft (5).

Description

Screw-type aerator for wastewater treatment

The present invention relates to a screw-type aerator for wastewater treatment, and more particularly, to an intake unit with an intake fan for forcibly inhaling air from the outside at the rear end of the aeration body integrally with the stirring screw at the end. Is formed and fixedly installed by inserting a screw propeller for forcibly transferring the air sucked by the intake fan to the inside of the drive hollow shaft communicating with the intake unit, and to the intake fan built in the intake unit and the screw propeller embedded in the drive hollow shaft. By improving the air supply efficiency to significantly increase the amount of oxygen introduced into the wastewater, and relates to a screw-type aerator for wastewater treatment to further enable the aerobic wastewater treatment capacity.

In general, domestic sewage and factory wastewater discharged from homes and factories go through a wastewater treatment plant to prevent water pollution before being discharged into rivers or rivers.In such wastewater treatment plants, the microorganisms in wastewater are activated by supplying or stirring oxygen in the wastewater process. Purify wastewater completely by applying various wastewater treatment methods such as to promote the self-cleaning function of water within a short time and to remove various organic matter contained in wastewater or to separate water and impurities by precipitation or filtration. It is then discharged into rivers or rivers.

Most wastewater treatment plants increase the oxygen in the wastewater by increasing the air in the wastewater among the various wastewater treatment methods, thereby purifying the wastewater by activating aerobic bacteria or protozoa, and at the same time, it is difficult to stir the wastewater to get out of the wastewater. It is mainly used by adopting aeration method to discharge harmful carbon dioxide or nitrogen. This aeration method injects air into wastewater through a blower to generate air bubbles to dissolve oxygen, and impellers on the water surface. B. It is divided into mechanical surface aeration method that spins or rotates a screw or brush to supply oxygen.

A mechanical surface aeration method is used among the aeration methods classified as described above, and the first half of the main body 2 is disposed on one side of the aeration tank 21 into which the wastewater 22 is introduced and stored as shown in FIG. 1. After the installation is inclined so as to be immersed in the inside, the stirring screw 6 formed on the driving hollow shaft 5 protruding forward of the main body 2 is rotated to stir the waste water 22 or the opening formed at the rear end of the main body 2 ( Screw-type aerator 20 for allowing external air sucked through 2a) to flow into the wastewater 22 through the hollow drive hollow shaft 5 has been widely used.

Conventional screw-type aerators, which have been used as described above, are shown in FIG. 2 to prevent scattering of waste water from outside the front of the main body 2 having the opening 2a through which air is introduced. The plate 4 is formed and the support 3 is installed at the outer rear side, and the rotor 9 is inserted into the stator 10 fixedly installed at the inner side of the housing 11 at the inner rear half of the main body 2. The driving motor 8 is fixedly installed, and the driving hollow shaft 5 in which the stirring screw 6 is formed at the front end of the driving motor 8 is combined with the rotor 9 to be integrally rotated. The air opening and closing valve 12 with the valve switch 13 is provided at the rear of the drive motor 8.

When using a conventional screw-type aerator configured as described above, if the stirring screw 6 of the aerator 20 is fixed to one side of the aeration tank 21 so as to be immersed in the wastewater, the power switch (not shown) is turned on. As the driving motor 8 rotates, the driving hollow shaft 5 connected to the driving motor 8 rotates, and as the driving hollow shaft 5 rotates, the stirring is formed at the end of the driving hollow shaft 5. As the screw 6 rotates in the wastewater stream, the wastewater is stirred.

As described above, when oxygen is supplied to the waste water while the stirring screw 6 is rotating, the valve switch 13 is operated to open the air opening and closing valve 12, and thus, the front end of the main body 2 is opened. As the protruding stirring screw 6 rotates, a low pressure state is formed near the exhaust port 5a at the end of the driving hollow shaft 5, so that the opening 2a formed at the rear end of the main body 2 is formed by the pressure difference. At the same time, the outside air is sucked in and is sucked into the driving hollow shaft 5 through the inlet 15 formed at one side of the air opening / closing valve 12 and through the exhaust port 5a formed at the end of the driving hollow shaft 5. Discharge to waste water.

However, such a conventional screw-type aerator is caused by the pressure difference between the front end portion and the rear end portion of the driving hollow shaft 5 generated by the rotation of the stirring screw 6 formed at the front end portion of the driving hollow shaft 5. The outside air is sucked and supplied. In this way of supplying the outside air, the oxygen supply efficiency is very low, so that the aerator 20 needs to be operated for a long time in order to supply sufficient oxygen to the wastewater. There was a problem that the service life of the aerator 20 is significantly shortened due to the use.

Therefore, in the case of treating wastewater with high pollution using a conventional screw type aerator, the number of aerators 20 should be increased or a blower for oxygen supply should be provided separately so that additional cost is required. there was.

In order to solve the above problems, the present invention integrally forms an intake unit having an intake fan for forcibly inhaling air from the outside at the rear end of the aeration body, and at the same time, a stirring screw is formed at the end thereof to communicate with the intake unit. The inside of the driving hollow shaft is fixed by inserting a screw propeller for forcibly transferring the air sucked by the intake fan, thereby improving the air supply efficiency by the intake fan built in the intake section and the screw propeller built in the driving hollow shaft to improve the air supply efficiency. Since the amount of oxygen introduced into the reactor is significantly increased, it is a technical task to enable the aerobic wastewater treatment capacity to be further activated.

In order to achieve the above technical problem, the present invention has a shatterproof plate formed at the outside of the main body, and a support is installed at the outside of the main body, and a driving motor is fixedly installed at the inner half, and a stirring screw is formed at one end of the driving motor. In the screw type aerator having a drive hollow shaft through and the air opening and closing valve in communication with the drive hollow shaft on the other side, a plurality of intake holes are formed through the outer side of the main body of the aerator. An intake unit to which a fan motor with an intake fan is attached to the inside is integrally formed, and a screw propeller is inserted into and fixed to the rear half of the driving hollow shaft.

1 is an explanatory view showing a state of use of a screw-type aerator according to the prior art.

2 is a cross-sectional view showing the configuration of a screw-type aerator according to the prior art.

3 is a cross-sectional view showing the configuration of a screw-type aerator according to the present invention.

4 is an enlarged partial cross-sectional view of a portion A of FIG.

FIG. 5 is an enlarged partial cross-sectional view of part B of FIG. 4.

Figure 6 is a flow chart showing an automatic operation process of the screw-type aerator according to the present invention.

<Description of the symbols for the main parts of the drawings>

1 aerator 2 body 3 support

4: shatterproof plate 5: driving hollow shaft 6: stirring screw

7: Screw Propeller 7a: Welding Part 8: Drive Motor

9 rotor 10 stator 11 housing

12: air open and close valve 13: valve switch 14: intake port

15: intake 16: fan motor 17: intake fan

18: intake hole

Hereinafter, the present invention will be described in detail with reference to FIGS. 3 to 6 to achieve the above object.

Figure 3 is a cross-sectional view showing the configuration of the screw-type aerator according to the present invention, Figure 4 is a partial cross-sectional view showing an enlarged portion A of Figure 3, Figure 5 is a partial cross-sectional view showing an enlarged portion B of Figure 4, Figure 6 Is a flow chart showing the automatic operation process of the screw-type aerator according to the present invention.

In the configuration of the screw-type aerator for wastewater treatment according to the present invention, as shown in FIG. 3, a scattering prevention plate 4 is formed on the outside front of the main body 2, and a support 3 is installed on the outside rear. The driving motor 8 is fixedly installed at the inner rear part, and the driving hollow shaft 5 having the stirring screw 6 formed at the end thereof penetrates at one end of the driving motor 8 fixedly installed inside the main body 2. It is installed and the other side is provided with an air opening and closing valve 12 in communication with the drive hollow shaft (5) is the same as the configuration of the conventional screw type aerator.

The main part of the screw-type aerator according to the present invention, as shown in Figure 4 is formed in the rear end of the main body 2 of the aerator such that a plurality of intake holes 18 through the outer surface The intake unit 15 to which the fan motor 16 with the intake fan 17 attached thereto is fixedly formed is integrally formed, and as shown in FIG. 5, the screw propeller is formed inside the rear half of the driving hollow shaft 5. (7) is characterized in that the insert is fixed.

In addition, the intake fan 17 and the fan motor 16 mounted inside the intake unit 15 may use a known intake fan and a fan motor used in various fans or blowers, and the fan motor 16 ) Is preferably configured to be linked with the operation of the valve switch 13 by being connected to the valve switch 13 by a wiring not shown.

In addition, the screw propeller (7) is a known screw propeller that is typically used in ships or the like to generate the thrust to advance the ship, such a screw propeller (7) in the rear half of the drive hollow shaft (5) Screw propeller 7 inserted into the rear half of the driving hollow shaft 5 in which a plurality of through holes are formed through the outer periphery of the rear half by being formed to have a constant size and length so as to be inserted thereinto and inserted as shown in FIG. After the wing and the hole of the) to match the arc welding is installed so that the screw propeller (7) is firmly fixed to the inside of the drive hollow shaft (5). At this time, the welding portion 7a protruding on the outer circumference of the driving hollow shaft 5 is completely removed by turning using a lathe or the like to smoothly finish the outer circumferential surface of the driving hollow shaft 5.

Referring to the preferred use method and the working relationship of the screw-type aerator according to the present invention is configured as described above are as follows.

The screw-type aerator according to the present invention has a manual operation method in which the user selects the agitation and aeration action directly according to the wastewater state and the BOD (Biochemical Oxygen Demand) value of the wastewater stored in the aeration tank. It is configured to form a well-known measuring sensor and automatic driving circuit for measuring MLSS (Mixed Liquor Suspended Solids) value, and it is used as an automatic driving method to receive the control signal from the sensor and automatically perform stirring and aeration. It is possible to do

Referring to the automatic operation of the automatic operation method using a screw-type aerator according to the present invention, as shown in the flow chart shown in Figure 6 to turn on the power switch of the aerator 1 installed on one side of the aeration tank When the driving motor 8 of the aerator 1 rotates, the wastewater in the aeration tank is agitated by the stirring screw 6 of the driving hollow shaft 5, and the valve switch 13 is turned on to turn on the air opening / closing valve 12. ) Is opened and the fan motor 16 embedded in the intake unit 15 formed at the rear half of the main body 2 is driven to rotate the intake fan 17.

At this time, the air outside the intake unit 15 is sucked into the intake unit 15 through the intake hole 18 by the rotation of the intake fan 17, and the sucked air is continuously driven into the driving hollow shaft 5. Is fixed to the inner side of the rear half of the driving hollow shaft through the inlet 14 formed on one side of the air opening and closing valve 12 by the rotation of the screw propeller (7) is rotated with the rotation of the driving hollow shaft ( 5) is sucked into the interior at high speed, the outside air sucked at a high speed is discharged to the waste water through the exhaust port (5a) formed at the end of the drive hollow shaft (5) to perform the aeration operation.

Through this process, when the BOD value and MLSS value in the waste water are measured by the measurement sensor installed in the aeration tank during the continuous aeration operation, the control signal from the measurement sensor is It is transmitted to the valve switch 13, the operation of the valve switch 13 is closed the air opening and closing valve 12, the operation of the intake fan 17 is stopped, the waste water sufficiently supplied with oxygen through the aeration operation The wastewater treatment by aerobic microorganisms is further progressed through the stirring operation process which is continuously stirred by the stirring screw 6 formed on the driving hollow shaft 5 of the aerator 1.

As described above, the screw-type aerator according to the present invention is driven continuously after the first forced suction and the first forced suction by the intake fan 17 of the intake unit 15 to supply external air to the wastewater during the aeration operation. By the secondary forced suction of the screw propeller (7) built into the hollow shaft (5) is to be sucked in a large amount in a short time to be able to further improve the air supply efficiency.

As described above, the screw-type aerator for wastewater treatment according to the present invention integrally forms an intake unit having an intake fan for forcibly inhaling air from the outside at the rear end of the aeration body and at the same time a stirring screw is formed at the end thereof. By inserting and fixing a screw propeller for forcibly transferring the air sucked by the intake fan, the inside of the hollow hollow drive hollow shaft communicating with the intake unit is fixed to the intake fan and the screw propeller built in the drive hollow shaft. By improving the air supply efficiency, the amount of oxygen flowing into the wastewater is greatly increased, which not only enables the aerobic wastewater treatment capacity to be further activated, but also when treating the highly polluted wastewater stored in the aeration tank. Aerators must be operated or a separate oxygen supply blower is provided. Since over you use enough oxygen to the wastewater treatment aeration tank in only one width of the device without the need to be able to offer that effect to significantly reduce the cost of wastewater treatment.

Claims (1)

Shatterproof plate 4 is formed on the outside front of the main body 2, the support 3 is installed on the outside rear, and the drive motor 8 is fixed on the inner rear half, One side of the drive motor (8) is installed so that the hollow drive hollow shaft (5) having a stirring screw (6) is formed at the end of the air opening and closing valve (12) in communication with the drive hollow shaft (5) In the screw type aeration machine equipped with) On the rear end of the main body 2 of the aerator is formed a plurality of intake holes 18 through the outer surface and the intake portion 15 is fixed to the fan motor 16 with the intake fan 17 attached to the inside Formed integrally, Screw-type aerator for wastewater treatment, characterized in that the screw propeller (7) is inserted into the rear half of the drive hollow shaft (5).