KR100693184B1 - Waste water treatment apparatus - Google Patents

Abstract

A microorganism contacting, circulating and filtering type wastewater treating system which is capable of preventing deterioration of degradation efficiency due to stagnation of wastewater without installing a separate circulating aeration chamber by installing water current generators at upper and lower sides is provided. In a wastewater treating system for degrading wastewater using microorganisms which are adhered to the filter media and grow in the filter media by supplying oxygen into filter media(21) contained in medias(20) within the aeration tank when wastewater stabilized in a pre-treatment tank is supplied into an aeration tank(10), a microorganism contacting, circulating and filtering type wastewater treating system comprises: a plurality of vertical springs(30) installed on the bottom of the aeration tank and supported to the media to facilitate vertical vibration of the media; a plurality of horizontal springs(40) installed between the media to facilitate horizontal vibration of the media; a plurality of vibration generators(50) which are installed at the center of the bottom of the media, and separate a portion of microorganisms living in the filter media within the media and constantly maintain pores of the filter media by rotating an eccentricity weight at a high speed, thereby generating vibration; and driving means(60) installed within the aeration tank and connected to the respective vibration generators by flexible wires(70) to provide the vibration generators with high speed rotary power.

Description

Waste water treatment apparatus of microbial contact circulation filtration

1 is a front sectional view of a processing apparatus of an embodiment of the present invention.

Figure 2 is a plan sectional view of the processing apparatus of one embodiment of the present invention.

Figure 3 is a cross-sectional view showing the drive means of the processing apparatus of one embodiment of the present invention

Figure 4 is a cross-sectional view showing a vibration generator of the processing apparatus of one embodiment of the present invention

5 is a schematic view showing a filter portion of the treatment apparatus of one embodiment of the present invention.

6 is a front sectional view of a processing apparatus of another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

10: aeration tank 20: carrier

21: media 30: vertical spring

40: horizontal spring 50: vibration generator

51: eccentric weight 52: vibration axis

53: bearing 60: drive means

61: underwater motor 62: gearbox

63: sun gear 64: planetary gear

65: bearing part 70: flexible wire

80: upper water flow generator 81: lower water flow generator

82: motor 83: fan

90 filter tank

The present invention relates to a wastewater treatment apparatus of a microbial contact circulation filtration method, and more particularly, to form a plurality of block-type carriers in an aeration tank for treating wastewater and to fill a lot of media in the carriers, The contaminants are decomposed, but the carriers are periodically shaken to secure voids between the media to improve air contact and to promote microbial growth, thereby rapidly dissolving contaminants. The present invention relates to a wastewater treatment apparatus of a microbial contact circulating filtration system capable of preventing degradation of decomposition efficiency due to stagnation of wastewater without installing a generator to make a separate circulation aeration chamber.

In general, various wastewater treatment methods such as domestic wastewater, livestock wastewater, and industrial wastewater include activated sludge method, anaerobic digestion method and physical chemical treatment method using microorganisms, and activated sludge method using double microorganisms is popularized.

The activated sludge method uses an aeration tank, and microorganisms adhering to the media are continuously mixed and contaminants are supplied, and oxygen necessary for the growth of microorganisms is supplied. Organic contaminants in waste water are used for the oxidation, adsorption and assimilation of microorganisms. It is decomposed and consumed as energy or used for self-growth of microorganisms. The treatment efficiency of the aeration tank is affected by the design conditions such as the load of organic matter, the aeration time and the amount of air, and the conditions of the growing environment such as water temperature and pH.

The conventional aeration tank was constructed by circulating the waste water of the lower part with a separate purifying pipe while supplying oxygen to the microorganisms attached to the filter medium by embedding the aeration pipe inside the carrier filled with the filter medium.

However, such a method has a disadvantage in that the waste water is circulated and the amount of dissolved oxygen in the carrier is insufficient, resulting in weak aerobic performance.

In order to solve this problem, Utility Registration No. 315908 provides a separate aeration chamber separate from the carrier in the aeration tank and supplies waste water to the aeration chamber to separate the aeration from the aeration chamber to increase the amount of dissolved oxygen therein. I'm using a circulating way to the side.

However, this treatment method requires the construction of a separate aeration chamber separate from the carrier inside the aeration tank, so the aeration tank increases, thus increasing the construction cost and occupying a large area, making it difficult to secure the site of the wastewater treatment plant. Since the media contained in the media are inferior in fluidity, the microorganisms adhere to the surfaces of the media and the pores are narrowed and anaerobic. Since the aeration of air cannot reach deeply, the outside air is aerobic and the inside is anaerobic, and the waste water treatment efficiency is inferior.

The present invention was developed in view of the conventional problems, and an object of the present invention is to form a plurality of block-type carriers in an aeration tank for treating wastewater, and to fill a large number of media in the carriers and to contaminate the microorganisms by attaching and propagating contaminants. The microorganisms are decomposed, but the carriers are periodically shaken to release the microorganisms that are excessively propagating in the media and to secure voids between the media to uniformly aerobic the inside of the media to rapidly decompose the contaminants by the microorganisms. In particular, the present invention provides a wastewater treatment apparatus of microbial contact circulating filtration that can prevent the degradation of decomposition efficiency due to stagnation of wastewater without installing a separate circulation aeration chamber by installing water flow generators up and down.

In order to achieve the above object, the present invention provides wastewater stabilized in a pretreatment tank to supply oxygen to the media inside the aeration tank so that the wastewater is decomposed into microorganisms that grow and adhere to the media. In the treatment apparatus, the aeration tank bottom is provided with a plurality of vertical springs to support the upper and lower vibrations to hold the carriers, and between the carriers to support the left, right and front and rear vibration of the carriers horizontally A plurality of springs are provided, and a plurality of vibration generators are provided in the center of the bottom surface of the carriers to generate vibrations by rotating the eccentric weight at a high speed to detach some of the microorganisms parasitic in the media inside the carriers and to maintain a constant void. It is provided, and the inside of the aeration tank and each of the vibration generator and the flexible and Language is connected is configured to be provided with a drive means for supplying a high-speed rotation force.

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

1 is a front sectional view of a processing apparatus of an embodiment of the present invention, and FIG. 2 is a plan sectional view of a processing apparatus of an embodiment of the present invention. The treatment apparatus of an embodiment of the present invention is provided with an aeration tank 10 for decomposing and removing contaminants of the wastewater passing through the pretreatment with microorganisms. The aeration tank 10 is provided with a plurality of block-shaped carriers 20 therein, the carriers 20 are connected to a plurality of struts 31 and vertical springs 30 protruding from the bottom of the aeration tank 10. It is provided in the state floating in the inside of the aeration tank 10.

The carriers 20 are spaced apart from each other and are spaced apart by a plurality of horizontal springs 40 so as not to interfere with each other. And the carrier 20 is composed of a porous net is provided so that the waste water is free to enter and the inside is filled with a number of irregularly formed media (21).

The filter medium 21 is composed of a PE material, it is used as a home of microorganisms to decompose waste water. In addition, an aeration pipe 11 having a plurality of nozzles 12 is provided between the bottom of the aeration tank 10 and the lower portion of the carriers 20 to supply oxygen into the aeration tank to maintain a constant amount of dissolved oxygen in the waste water.

The present invention is provided with a vibration generator 50 for generating a vibration in the center of the bottom of the carrier (20). The vibration generator 50 is to be shaken by shaking the carrier 20, the carrier 20 is supported by the vertical and horizontal springs 30, 40 is a configuration that vibration is better. The vibration generator 50 shakes the filter media 21 inside the carrier 20 to prevent excessive propagation of microorganisms stuck to the media and the voids between the media 21 are kept constant so that the oxygen aeration between them is maintained. Well through the aeration tank and to the waste water flows well.

Driving means 60 for supplying a rotational force to the vibration generator 50 of each carrier 20 is provided. The driving means 60 is connected to a flexible wire 70 that bends freely to simultaneously operate a plurality of vibration generators 50 in one place.

3 is a cross-sectional view showing the driving means of the processing apparatus of one embodiment of the present invention, Figure 4 is a cross-sectional view showing a vibration generator of the processing apparatus of an embodiment of the present invention. The drive means 60 of the embodiment of the present invention is provided with a submersible motor 61, the sun gear 63 is connected to the rotating shaft of the submersible motor 61. In addition, a plurality of planetary gears 64 are provided around the sun gear 63 so as to be supported by the bearing portion 65 in the gearbox 62 so as to rotate together while the sun gear 63 is rotated.

The planetary gears 64 are connected to the vibration generator 50 and the flexible wire 70 under the carrier 20 so that the rotational force of the planetary gear 64 and the planetary gear 64 is rotated when the sun gear 63 is rotated. It is transmitted to the vibration generator 50 through the flexible wire (70).

The flexible wire 70 is a member that connects the driving unit and the follower while avoiding obstacles while being flexed freely within a range that does not interfere with rotation because a steel wire wire serving as a rotating shaft is embedded inside the flexible synthetic resin tube having flexibility. Since it is used, further description of the configuration will be omitted.

The vibration generator 50 is fixed to the center of the bottom surface of the carrier 20, the vibration shaft 52 connected to the flexible wire 70 therein is rotatably supported through the bearing portion 53, the vibration shaft A part of the 52 is provided with an eccentric eccentric weight 51, the vibration shaft 52 is rotated at a high speed is a configuration that the vibration is generated by the eccentric weight 51 to shake the carrier 20.

5 shows a filter part of an embodiment of the present invention, in which the wastewater treated in the aeration tank 10 is discharged to the next treatment process via the filter tank 90. The filter tank 90 is filled with irregularly basalt lumps therein, and absorbs and removes unfiltered contaminants in the aeration tank, and emits far-infrared rays from the basalt, thereby inhibiting and sterilizing the growth of harmful bacteria. . Therefore, the wastewater passing through the filter tank 90 is purified and sent to the next treatment process.

The treatment apparatus of an embodiment of the present invention configured as described above has a plurality of struts 31 installed inside the aeration tank 10 for storing the wastewater stabilized in the pretreatment tank and vertical springs 30 at the upper ends of the struts 31. A plurality of carriers 20 supported are provided. The vertical spring 30 causes the up and down shaking of the carrier 20 to occur due to the elastic force of the vertical spring when vibration occurs.

The carriers 20 are provided to be separated from each other so as not to interfere with each other when the vibration occurs, and the horizontal spring 40 is interposed therebetween, causing left, right, front and rear shakes by the elastic restoring force of the spring according to the interval maintenance and vibration. It serves to improve the vibration shake of the carrier (20).

When the waste water stabilized in the pretreatment tank is supplied to the aeration tank 10, a myriad of air bubbles are generated from the nozzle 12 of the air pipe 11, and oxygen is supplied into the carrier 20. Since the carriers 21 are embedded in the carrier 20 and microorganisms adhere to these media to parasites, oxygen is supplied to them to decompose wastewater.

When the microorganisms are excessively swelled in the media (21), the pores between the media are narrowed and the amount of dissolved oxygen is insufficient to be anaerobic, so that the microorganisms of the media (21) are desorbed by shaking the carrier (20) to solve the problem. The submersible motor 61 of the drive means 60 is operated to secure the voids. Then, when the sun gear 63 is rotated, the planetary gears 64 engaged with the sun gear 63 rotate at high speed, and the eccentric weight 51 of the vibration generator 50 rotates at high speed through the flexible wires 70 connected thereto. Generates.

When the vibration generators 50 are operated, the carriers 20 supported by the vertical springs 30 and the horizontal springs 40 are shaken upwards, downwards, leftwards, forwards, and rearwards, and excessively grown by shaking the inner media 21. Desorption of microorganisms and secure the necessary voids, uniformly aerobic the media (21) in the carrier 20 to improve the treatment performance of waste water.

6 is a front sectional view of a processing apparatus of another embodiment of the present invention, having the same configuration as the embodiment of the present invention. Only the upper water flow generator 80 is provided to the upper left side of the aeration tank 10, the lower water flow generator 81 is provided to the lower right side of the aeration tank 10 and these generators 80 and 81 are circulated waste water The inner fan 83 and the motor 82 are installed correspondingly.

In another embodiment of the present invention configured as described above, when the upper water flow generator 80 and the lower water flow generator 81 are operated while the aeration tank 10 is operated, the waste water is circulated from the bottom to the upper portion, and the dissolved oxygen amount of the aeration tank 10 is uniform. Since the wastewater can be quickly treated, there is no need to provide a separate circulation aeration chamber, which does not occupy a large area of the treatment plant.

As described above, according to the present invention, the carrier containing the filter medium in the aeration tank is supported by the vertical spring and the horizontal spring, and a device for generating vibration is provided on the bottom of the carriers, so that the carrier can be vibrated when necessary. Since the microorganisms are grown excessively to secure the pores between the media and to increase the dissolved oxygen content to uniformly aerobic the inside of the carrier to treat the waste water quickly.

By circulating the waste water by installing the upper water flow generator and the lower water flow generator, the dissolved oxygen in the aeration tank is equalized to improve the treatment capacity of the waste water, and it is not necessary to increase the area of the aeration tank of the treatment plant, thereby eliminating the difficulty of securing the site and It can reduce the construction cost.

Claims (3)

In the wastewater treatment apparatus, when the wastewater stabilized in the pretreatment tank is supplied to the aeration tank, oxygen is supplied to the mediators contained in the aeration tank so that the wastewater is decomposed by microorganisms that grow and adhere to the mediator. The bottom of the aeration tank is provided with a plurality of vertical springs to support the carriers up and down vibration, Between the carriers are provided with a plurality of horizontal springs to help the left, right and front, rear vibration of the carriers, A plurality of vibration generators are provided at the center of the bottom of the carrier to generate vibrations by rotating the eccentric weight at a high speed, thereby desorbing some of the microorganisms parasitic in the media inside the carrier and keeping the voids constant. And a driving means connected to each of the vibration generators and the flexible wires to supply a high-speed rotational force to the aeration tank. The method of claim 1, The vibration generator is provided with a vibration shaft formed with the eccentric, the vibration shaft is connected to the flexible wire, The driving means is provided with a sun gear rotated by an underwater motor, and a plurality of planetary gears connected one-to-one with each of the flexible wires around the sun gear is microbial contact circulating filtration wastewater treatment apparatus. The method of claim 2, An upper water flow generator is provided at one upper side of the aeration tank, and a lower water flow generator is provided at the other lower side of the aeration tank. The upper and lower flow generators are installed in the microbial contact circulation filtration system, characterized in that the fans rotated by the motor facing each other is installed so that the waste water is circulated in one direction to uniform the dissolved oxygen amount.

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