KR20110107469A - Water purifying device - Google Patents

Abstract

Including the coupling structure of the carrier detachably coupled to the stirring wing and the height adjustment structure of the rotating shaft to adjust the concentration of microorganisms according to the amount of the wastewater inside the aeration tank, the purification efficiency of the wastewater is increased and the purification efficiency of the wastewater is increased. Disclosed is a water treatment apparatus provided to easily vary an involved internal environment.

Description

Water treatment device {WATER PURIFYING DEVICE}

The present invention relates to a water treatment apparatus for treating waste water, and more particularly, to a variable variable carrier provided to increase the purification efficiency of the waste water and to easily change the internal environment by a method for attaching the carrier involved in the purification efficiency of the waste water. It relates to a type water treatment device.

In general, the treatment of organic wastewater, such as livestock wastewater containing livestock manure or industrial wastewater and domestic sewage of the plant is made by biological treatment using microorganisms, the active treatment method is an active sludge method.

The activated sludge method is a method of aeration and agitation of wastewater and sewage in an aeration tank together with microorganisms. In the aeration tank, when the biochemical oxygen demand is satisfied, the aerobic microorganisms multiply and decompose the cloudy organic matter. The organic matter (sludge) decomposed through the aeration tank is precipitated and the supernatant separated from the liquid is discharged and purified. In the activated sludge process, the concentration of microorganisms in the aeration tank is very important. In order to increase the concentration of microorganisms, a carrier in which a microorganism can attach and inhabit is often provided.

Therefore, the water treatment apparatus for performing the water purification process using the activated sludge method includes an aeration unit for aeration, an aeration tank in which the aeration unit is installed, a stirring unit for stirring microorganisms and waste water on the carrier inside the aeration tank, and removing sludge. It is provided to have a sludge removal unit and the like. In order to increase the stirring efficiency between the microorganism and the waste water, the carrier is usually fixed to the stirring unit, and the carrier is usually fixed to the stirring unit through the fastening member.

On the other hand, as the water purification process is repeated, the concentration of the microorganisms on the carrier may be lowered. In this case, the carrier on the stirring unit should be replaced with a carrier provided with new microorganisms. In addition, in the activated sludge method, microorganisms are generally used according to the type of contaminated water to be purified. Therefore, the same kind of wastewater to be purified as in the case of purifying livestock wastewater using the same water treatment device, Even in the case of changing the carrier of the stirring unit should be replaced with another type of microorganism attached.

However, in the conventional water treatment station, the carrier is fixed to the stirring unit through the fastening member as described above. In order to replace the carrier, the carrier is removed by removing the fastening member and removing the carrier from the stirring unit, and then tightening the fastening member again. There was a hassle to fix the, and the inconvenience of replacing the carrier was a factor to reduce the purification efficiency of the water treatment device.

In addition, the conventional water treatment apparatus waits until the sedimented organic material sludge is settled to be separated from the supernatant, and then removes it. This also slows down the purification rate of the waste water and causes a decrease in the purification efficiency of the water treatment apparatus.

In addition, in the process of purifying wastewater using a water treatment device, in order to perform more appropriate purification, the concentration of microorganisms must be adjusted according to the amount of wastewater inside the aeration tank, or the temperature of the aeration tank must be controlled to smoothly decompose the microorganism. It may be necessary to change a variety of internal environment required to perform this, in the case of the conventional water treatment device has been limited to improve the purification efficiency of the water treatment device more effectively because such internal environment is provided to be fixed mostly.

The present invention is to solve such a problem, an object of the present invention is to provide a variable carrier-type water treatment apparatus provided to increase the purification efficiency of the waste water and to easily change the internal environment involved in the purification efficiency of the waste water.

In order to solve this problem, the water treatment apparatus according to the present invention includes an aeration tank provided to receive wastewater, an acid unit provided to supply air into the aeration tank, a plurality of carriers provided to attach and inhabit the microorganisms, and the microorganisms in the aeration tank. And a stirring unit provided to agitate the waste water, wherein the stirring unit is installed in the horizontal direction in the aeration tank and is provided in a horizontal direction, and a plurality of radially disposed around the rotating shaft to rotate together with the rotating shaft. It includes two stirring wings, the carrier is characterized in that detachably coupled to the stirring wings.

The stirring blade is characterized in that it comprises a plurality of extension bars extending radially from the rotation axis, and a connection bar connecting between the extension bar.

The stirring unit may further include a pair of height adjusting members provided on both sidewalls of the aeration tank at both ends of the rotating shaft so as to slidably support both ends of the rotating shaft in the vertical direction.

In addition, the water treatment apparatus according to the present invention further includes a sludge removal unit for removing the organic material sludge decomposed by the microorganism, the sludge removal unit is a brush provided at the end of the stirring blade, and the rotation shaft on one side of the aeration tank Rotating roller is provided to rotate in contact with the brush during the rotation operation, characterized in that it comprises an inclined plate provided to be inclined downward to the outside of the aeration tank on one side of the rotating roller.

The sludge removing unit further includes a collecting tank provided at the end of the inclined plate outside the aeration tank, and a transfer screw rotatably installed at the collecting tank so that one end thereof extends outside the collection tank.

It characterized in that it further comprises a temperature control unit having a heat exchanger to adjust the temperature inside the aeration tank.

The diffuser unit includes an diffuser provided with an outlet disposed at the bottom of the aeration tank, and an angle control plate provided to adjust an angle of air bubbles blown upward through the outlet of the diffuser.

In addition, the water treatment apparatus of the present invention further comprises a temperature control unit having a heat exchanger and a heat exchange space for accommodating the heat exchanger to adjust the temperature inside the aeration tank, wherein the diffuser includes a diesel section provided via the heat exchange space. It includes, the transit section is characterized in that it comprises a bending portion bent in the form of a coil.

As described above, the water treatment apparatus according to the present invention has a structure for adjusting the height of the rotating shaft to appropriately control the concentration of microorganisms according to the coupling structure of the carrier detachably coupled to the stirring blade and the amount of waste water inside the aeration tank. Including, there is an advantage that can increase the purification efficiency of waste water and easily change the internal environment involved in the purification efficiency of waste water.

1 is a front sectional view of a water treatment apparatus according to a preferred embodiment of the present invention.
2 is a side cross-sectional view of a water treatment apparatus according to a preferred embodiment of the present invention.
Figure 3 shows the structure of the height adjustment member in the water treatment apparatus according to an embodiment of the present invention.

Next will be described in detail with reference to the accompanying drawings the structure of a water treatment apparatus according to an embodiment of the present invention.

The water treatment apparatus according to the present embodiment is provided to purify organic wastewater (w), such as livestock wastewater containing livestock manure, industrial wastewater and domestic sewage of plants, etc. using an activated sludge method, FIGS. 1 to 3. As shown in FIG. 1, an aeration tank 10 opened upwardly to accommodate waste water w, an air dispersing unit 20 provided to supply air into the aeration tank 10, and a plurality of microorganisms attached and inhabited A carrier (not shown) and a stirring unit 30 provided to stir the microorganisms and waste water in the aeration tank 10 are provided.

The stirring unit 30 is provided with a rotating shaft 31 installed horizontally in the aeration tank 10, and a plurality of stirring blades 32 disposed radially around the rotating shaft 31 to rotate together with the rotating shaft 31. And, the carrier (not shown) is coupled to the stirring blade (32).

The rotary shaft 31 is provided to rotate by driving the driving motor 33, and a chain of stainless steel resistant to corrosion between the rotary shaft 31 and the driving motor 33 so that the driving force of the driving motor 33 is transmitted to the rotating shaft. 34 are connected.

Accordingly, when the rotary shaft 31 is rotated by driving the driving motor 33 while supplying air into the aeration tank 10 through the unit 20 while the waste water w is accommodated in the aeration tank 10, the waste water ( w) is aerated and agitated in the aeration tank 10 together with the microorganism, and when the biochemical oxygen demand is satisfied in the aeration tank 10, aerobic microorganisms are multiplied to decompose turbid organic substances to purify the waste water (w).

On the other hand, the carrier (not shown) is detachably coupled to the stirring blade 32 to facilitate replacement. The stirring blade 32 is provided with a plurality of indentation grooves 32a so that one side of the carrier is press-fitted and coupled, and the carrier (not shown) is coupled to the stirring wing 32 by being pressed by the indentation groove 32a by an external force. Then, the external force is pulled toward the opening of the press-in groove 32a to be separated from the stirring blade 32.

As such, when the carrier (not shown) is provided in a variable carrier type so that the carrier can be detached from the stirring blade 32, the carrier in use may be changed while the type of wastewater to be replaced or purified to replace the carrier having a reduced concentration of microorganisms with a new one. The microorganisms can be easily replaced with a carrier to which the microorganisms are attached, thereby improving the purification efficiency of the waste water.

In addition, the rotating shaft 31 is provided to be able to adjust the height in the vertical direction, the height adjustment structure of the rotating shaft is adjusted to the degree of immersion of the stirring blade 32 is coupled to the carrier (not shown) immersed in the waste water (w) By doing so, the concentration of microorganisms is appropriately adjusted according to the amount of waste water (w) inside the aeration tank 10 during the purification process.

That is, the stirring unit 30 is a pair of height adjusting members provided on both side walls of the aeration tank 10 at both ends of the rotary shaft 31 so as to slidably support both ends of the rotary shaft 31 in the vertical direction. 40. Each height adjustment member 40 is provided with a sliding groove 41 formed long in the vertical direction so that the end of the rotation shaft 31 is fitted to be fixed to the side wall of the aeration tank 10.

Therefore, the rotating shaft 31 can be adjusted in height while moving horizontally to the top or bottom along the sliding groove 41, the case is located in the lower than the case in which the rotary shaft 31 is located at the top of each stirring blade ( Since the time for contacting the carrier (not shown) coupled to the wastewater 32 and the wastewater w becomes relatively long, the concentration of the microorganisms on the wastewater w is controlled by the height adjusting action of the rotating shaft 31.

In addition, the height adjusting member 40 is provided with a plurality of hook grooves 41a provided at one side of the sliding groove 41 so as to communicate with the sliding groove 41 in order to fix the end of the rotating shaft 31 whose height is adjusted. Hook groove (41a) is provided with a plurality of arranged along the longitudinal direction of the sliding groove 41, accordingly, the rotation shaft 31 is a hook groove (41a) in the height is adjusted up and down along the sliding groove (41) Is fixed to hanging.

In addition, the drive motor 33 is provided with a variable speed to be able to vary the rotational speed of the rotary shaft 31, the contact time of the waste water (w) and the microorganisms in this way of the rotary shaft 31 using the drive motor 33 It can also be adjusted through the variable speed action.

The stirring blade 32 includes a plurality of extension bars 32b and 32c extending radially from the rotation shaft 31 and a connection bar 32d connecting the extension bars 32b and 32c. The extension bars 32b and 32c extend radially along the rotation axis 31 around both ends of the rotation shaft 31, and the connection bar 32d allows horizontal connection between the corresponding extension bars 32b and 32c. do.

The press-fitting groove 32a provided with a carrier (not shown) to be detachable is evenly disposed throughout the extension bars 32b and 32c and the connection bar 32d, and the connection bar 32d of each stirring blade 32 is provided. ) May be provided in plurality differently from the present embodiment.

In addition, the water treatment apparatus includes a sludge removal unit 50 for removing organic material sludge decomposed by microorganisms.

Sludge removal unit 50 is a rotation provided to rotate in contact with the brush 51 during the rotation operation of the brush 51 and the rotating shaft 31 on one side of the aeration tank 10, the end of each stirring blade (32) The roller 52 and the inclined plate 53 provided on one side of the rotating roller 52 to be inclined downward to the outside of the aeration tank 10.

Therefore, the sludge inside the aeration tank 10 is attached to the brush 51 provided at the end of each stirring blade 32 when the rotating shaft 31 rotates, and the sludge attached to the brush 51 is attached to the brush 51 and the rotating roller. In the process of contacting the 52 is moved to the surface of the rotary roller 52, the sludge transferred to the surface of the rotary roller 52 is transferred to the inclined plate 53 by the rotation of the rotary roller 52, the outside of the aeration tank 10 Is removed.

And the sludge removal operation is continued in real time in the purification process of the waste water to rotate the rotating shaft 31, accordingly, the water treatment device according to this embodiment is generated without having to wait for the sludge settled to the bottom of the aeration tank 10 The sludge can be removed immediately in real time, further improving the purification efficiency of wastewater.

In addition, the sludge removal unit 50 is rotatable to the collection tank 54 provided at the end of the inclined plate 53 outside the aeration tank 10 and the collection tank 54 so that one end thereof extends outside the collection tank 54. It is provided with a feed screw 55 to be installed.

Therefore, the water contained in the sludge guided to the collection tank 54 along the inclined plate 53 is collected by the collection tank 54, the sludge guided to the collection tank 54, the transfer operation of the transfer screw 55 It is discharged to the outside of the collection tank 54 through.

The transfer screw 55 may be driven to rotate through a motor (not shown) provided separately, and the collection tank 54 may communicate with the aeration tank 10 to convey moisture separated from the sludge to the aeration tank 10 again. It can be arranged to be.

In addition, when the ambient temperature of the water treatment device is excessively low or high, such as winter or summer, there is a concern that the smooth decomposition reaction of the microorganisms may be difficult. To solve this problem, the water treatment device according to the present embodiment may control the temperature inside the aeration tank 10. It is provided with a temperature control unit 60 having a heat exchanger (61).

The heat exchanger 71 may be configured through a heater pump employing a refrigerating cycle, and the heat exchanger 71 is installed in a heat exchange space 62 provided at an outer side of the bottom of the aeration tank 10. Reference numeral 63 is a cover installed so that the heat exchange space 62 is formed outside the bottom of the aeration tank 10. Communication holes are formed in the cover 63 so that the waste water w of the aeration tank 10 can be heated or cooled by the heat exchanger 61.

Therefore, in the state where the temperature control unit 60 is provided, when the external temperature is lowered, such as in winter, the internal temperature of the aeration tank 10 is increased through the heat exchanger 61, and when the external temperature is increased, such as in the summer, the aeration tank 10 By operating the heat exchanger 61 so that the internal temperature is lowered it is possible to control the internal temperature of the aeration tank 10 to a condition capable of smooth decomposition reaction of the microorganisms.

And the air dispersing unit 20 has an outlet 22a arranged to be disposed at the bottom of the aeration tank 10, and air bubbles blown up to the aeration tank 10 through the outlet 22a of the diffuser 21. It is provided with an angle adjusting plate 25 provided to adjust the angle of the. The diffuser 21 includes a body 22 in which an outlet 22a is formed and an acid flow passage 23 for supplying air to the body 22.

The angle adjusting plate 25 is hinged to the cover 63 to be rotatable to adjust the angle of the air bubbles blown upward from the outlet 22a of the diffuser 21 according to the rotational angle thereof.

Therefore, in the state in which the angle adjusting plate 25 is provided, even if the position of the carrier (not shown) is changed while the height of the rotating shaft 31 is adjusted, air bubbles ejected from the outlet 22a of the diffuser 21 are not supported by the carrier (not shown). It can be easily supplied to the c) side.

In addition, the diffuser 21 includes a diesel passage 23a provided to pass through the heat exchange space 62 so that the temperature of the air supplied to the aeration tank 10 can be adjusted according to the temperature around the water treatment device. In order to form a large heat exchange area of the diffuser 21 accommodated in the heat exchange space 62, the diesel passage section 23a includes a bending portion 23b bent in a coil shape.

10: aeration tank 20: air diffuser unit
30: stirring unit 50: sludge removal unit
60: temperature control unit

Claims (8)

An aeration tank provided to receive the waste water, an acidic unit provided to supply air into the aeration tank, a plurality of carriers provided to attach and inhabit the microorganisms, and a stirring unit provided to stir the microorganisms and the waste water inside the aeration tank; In the water treatment apparatus,
The stirring unit is installed in the horizontal direction inside the aeration tank and includes a rotating shaft provided to enable height adjustment, and a plurality of stirring wings disposed radially around the rotating shaft to rotate together with the rotating shaft,
The carrier is a water treatment device, characterized in that detachably coupled to the stirring blades. The method of claim 1,
The stirring blade is a water treatment device comprising a plurality of extension bars extending radially from the rotation axis, and a connection bar connecting between the extension bars. The method of claim 1,
The stirring unit further comprises a pair of height adjusting members provided on both side walls of the aeration tank on both ends of the rotation shaft to support both ends of the rotation shaft in a vertical direction. The method of claim 1,
Further comprising a sludge removal unit for removing the organic material sludge decomposed by the microorganism,
The sludge removing unit is provided with a brush provided at the end of the stirring blade, a rotating roller provided to rotate in contact with the brush when the rotating shaft is rotated on one side of the aeration tank, and one side of the rotating roller is inclined downward to the outside of the aeration tank. Water treatment apparatus comprising a swash plate. The method of claim 4, wherein
The sludge removal unit further comprises a collection tank provided at the end of the inclined plate outside the aeration tank, and a transfer screw rotatably installed at the collection tank so that one end thereof extends outside the collection tank. The method of claim 1,
The water treatment apparatus further comprises a temperature control unit having a heat exchanger to adjust the temperature inside the aeration tank. The method of claim 1,
The diffuser unit includes a diffuser provided with an outlet disposed at the bottom of the aeration tank, and an angle control plate provided to adjust an angle of air bubbles blown upward through the outlet of the diffuser. The method of claim 7, wherein
Further comprising a temperature control unit having a heat exchanger and a heat exchange space for accommodating the heat exchanger to adjust the temperature inside the aeration tank,
The diffuser includes a diesel passage provided to pass through the heat exchange space, and the diesel passage includes a bending portion bent in a coil form.

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