KR100774583B1 - A screw-type high flow sand filter - Google Patents

Abstract

The present invention relates to a screw upflow filter, the screw upflow filter according to the present invention is a filtration tank formed with a sand filter layer therein is provided with an inlet pipe at the bottom so that raw water flows through the sand filter layer A filtering tank having a treatment water pipe at the top to discharge the raw water upwards and being discharged by overflowing the treated water bank, and a driving unit including a motor installed at an upper end of the filtering tank, and the filtration tank. It is installed in the vertical direction inside the transfer screw is connected to the drive unit to perform the transfer of sand by the drive of the motor, the washing water is installed in the upper end of the transfer screw to wash the sand transferred through the transfer screw is collected The rinsing water chamber with openings at the bottom so that the transferred sand falls to the sand filtration layer. A burr, a washing water pipe installed to communicate with the outside of the washing water chamber and the filtration tank for discharging the washing water in the washing water chamber, and a feeding pipe surrounding the feeding screw to facilitate the sand transfer. The upper end is in communication with the interior of the washing water chamber and the lower end of the transfer pipe is installed so as to communicate with the sand filtration layer of the lower portion of the filtration tank, by injecting the air supplied from the air compressor outside the transfer pipe into the transfer pipe And an air lift tube installed to penetrate the transfer pipe wall to raise the contaminated sand.

Filtration Filter, Upflow Filtration Facility, Transfer Screw, Buffer, Air Lift Pipe

Description

Screw upflow filter {A screw-type high flow sand filter}

1 is a block diagram showing a general waste water purification treatment procedure.

Figure 2 is a cross-sectional view showing an upflow filter according to the prior art.

3 is a cross-sectional view showing a screw upflow filter according to the present invention.

Figure 4 is a plan view showing an impact load buffer installed in the screw upflow filter filtration according to the present invention.

※ Explanation of symbols for main parts of drawing

11: filtration tank 13: inlet pipe

15: feed screw 16: feed pipe

17; Rinsing chamber 19: Rinsing tube

20: center well 22: motor

23: reducer 24a, 24b, 24c: air lift pipe

25: impact load buffer 27: sand separation buffer

100: sand filtration layer

The present invention relates to an upflow filtration filter, and more specifically, a buffer is installed below the filtration tank to mitigate the impact of the inflow water into the inlet pipe, and the feed screw is provided to transfer sand to the center of the filtration tank. An air lift pipe is installed to inject air into the transfer pipe surrounding the pipe, and the screw is directed to a screw upflow filtration filter for washing a large amount of water at a higher speed to ensure good water quality.

The waste water purification treatment apparatus will be described with reference to FIG. 1.

The wastewater purification treatment device is a screen for filtering foreign matter such as pieces of paper or vinyl and plastic that have a large particle state flowing into the incoming wastewater, and a flow regulating tank for adjusting the flow rate of the wastewater passing through the screen. It comprises an aeration tank in contact with an appropriate amount of oxygen to decompose organic matter in the wastewater that has passed through by aerobic microorganisms, and a sedimentation tank for depositing the sediment containing the wastewater that passed through the aeration tank step by step. . The settling tank settles the sludge and discharges the supernatant. The apparatus for heavy water treatment and advanced treatment of the wastewater passing through the sedimentation tank may further include an activated carbon tank and a filter, which is a physicochemical advanced treatment technology using sand or activated carbon, which is a microfiltration facility.

The present invention relates to an apparatus for purifying wastewater after a sedimentation tank with a fine filtration facility in a wastewater purification treatment apparatus as described above.

Among the microfiltration facilities commonly used in the prior art, there is an upflow filtration system, which is simple in structure, and employs an upflow cleaning method for washing sand to perform continuous washing of sand at the same time as filtration. In addition to the treatment, it is widely used for industrial wastewater recycling and desalination industry.

Figure 2 is a view showing a conventional upflow filtration facility.

As shown in the upflow filtration system, a sand filtration layer 1a is formed therein, and raw water passing through the sand filtration layer 1a is moved upwards, and contaminants are removed therefrom. Distributor for injecting the raw water introduced into the filtration tank 1 through the inlet pipe (2a) and the filtration tank (1c) formed in the upper portion so that the flow is discharged to the sand filtration layer (1a) ( 2) and an air lift pipe 3 of a double pipe type installed perpendicular to the filtration tank 1 and spraying air supplied from an air compressor (not shown) to raise contaminated sand, and The washing water chamber 4, which is installed at the upper end of the air lift pipe 3, collects the washing water that has washed the sand washed first through the air lift pipe 3, and the treatment collected in the washing water chamber 4; One end is connected to the washing water chamber 4 to discharge the water. And the other end is provided with a washing water pipe 5 connected to the outside and a flow path 6a positioned below the washing water chamber 4 so as to perform secondary cleaning while dropping the first washed sand downward. It consists of the government (5).

In the upflow filtration system configured as described above, the raw water supplied through the inlet pipe 2a is uniformly distributed throughout the sand filtration layer 1a by the distributor 2 installed in the sand filtration layer 1a, At this time, the foreign matter (SS) is collected by the sand filtration layer (1a), the treated water is moved to the upper portion overflows from the treated water bank (1b) is discharged to the outside through the treated water pipe (1c).

The contaminated sand, which has filtered the raw water and traps the contaminated material, rises upward through the inner cylinder 3b by the compressed air sprayed through the outer cylinder of the airlift pipe 3, and rises through the inner cylinder 3b. As contaminated sand, water and air rise at different speeds, contaminants are separated from the contaminated sand and collected in the washing water chamber 4.

In addition, the sand collected in the washing water chamber 4 is dispersed while falling downward again through the flow path 6a of the sand washing unit 6 to be accumulated on the sand filtration layer 1a. In addition, the washing water introduced into the washing water chamber 4 together with sand is discharged to the outside through the washing water pipe (5).

However, according to the conventional upflow filtration system as described above, since the sand used is light, the sand used is light, so there is a risk that it will be lost to the supernatant when the influent is operated. Sand cleaning is not performed because it is not injured by the buoyancy of the sand.The specific surface area of the used sand should absorb foreign matters contained in the wastewater which flows in during the operation of the influent to the specific surface area of the sand. Since the amount of is small, foreign matters that are not adsorbed on the specific surface area are mixed with the supernatant and discharged.

The present invention has been made to solve the problems of the prior art, the present invention is a screw upflow filter filter to enable effective cleaning by using a method of transferring sand using a screw in parallel with the conventional airlift pipe The purpose is to provide.

The present invention for achieving the above object is a filtration tank in which a sand filtration layer is formed therein, having an inlet pipe at a lower portion so that raw water flows in, and contaminating the raw water having passed through the sand filtration layer upwards. A filtering tank having a treatment water pipe in the upper portion so as to overflow and discharged from the treatment basin after the material is removed, a driving unit including a motor installed at an upper end of the inside of the filtering tank, and installed vertically in the filtering tank. A transfer screw which is connected to a driving unit and transfers sand by driving the motor, and washing water which is installed at an upper end of the transfer screw to wash sand transferred through the transfer screw is collected and the transferred sand is sand filtration layer. A washing water chamber having an opening formed at its bottom so as to fall, and the washing water in the washing water chamber are discharged. In order to facilitate the transfer of the sand, and a washing water pipe installed to communicate with the outside of the washing water chamber and the filtration tank, the transfer pipe surrounding the transfer screw, the upper end is in communication with the inside of the washing water chamber The lower end of the transfer pipe is installed to communicate with the sand filtration layer below the filter tank, and the air to raise the contaminated sand by injecting air supplied from an air compressor outside the transfer pipe into the transfer pipe. And an air lift tube installed to penetrate the tube wall.

In addition, the hole is formed in the center, the outer peripheral edge is preferably coupled to the inner surface of the upper side of the inlet in communication with the inlet pipe of the filter tank, it is preferable to further include an impact load buffer which is formed to be inclined downward toward the hole of the center. Do.

In addition, it is preferable to further include a cone-shaped sand separation buffer coupled to the outer periphery of the middle of the transfer pipe and spreads downward toward the bottom so that the sand falling from the washing water chamber is uniformly dispersed.

In addition, it is preferable to further include a center well coupled to the washing water chamber and extending below the washing water chamber to a position spaced upward from the sand separation buffer by surrounding the transfer pipe.

In addition, it is preferable that a plurality of air lift pipes are installed so that the heights of the air injected by the air lift pipes are different from each other.

In addition, the hole of the air lift pipe injection unit located inside the transfer pipe is preferably installed to face downward.

In addition, the flow rate of the air injected from the air lift pipe is preferably 0.1 ~ 0.2 m ³ / min.

In addition, the material of the transfer screw, transfer pipe, washing water chamber, impact load buffer, sand separation buffer is preferably stainless steel.

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

3 is a cross-sectional view of a screw upflow filter according to the present invention.

As shown in the figure, the upflow filtration filter includes a filtration tank 11, a transfer screw 15, a transfer tube 16, a washing water chamber 17, a center well 20, a driving unit 21, an air lift tube ( 24a, 24b, 24c, the washing water pipe 19, the impact load buffer 25, and the sand separation buffer 27 are comprised.

Sand is piled up from the bottom of the filtration tank 11 to form a sand filtration layer 100, and the raw water flowing from the inlet pipe 13 connected to the side of the filtration tank 11 moves upwards to remove contaminants. After the treated water pipe 14 is overflowed from the treated water pump 12 is formed in the upper portion.

When the raw water is introduced through the inlet pipe 13, the vortex of the sand caused by the inflow is generated, so that the sand may be lost, so as to reduce the speed of the raw water immediately after entering the filtration tank 11 from the inlet pipe 13 An impact load buffer 25 is provided at an angle similar to a position where the inlet pipe 13 hole in the filtration tank 11 is inclined obliquely to descend inward from the inner wall surface of the filtration tank 11. Looking down at the impact load buffer 25, a circular hole 26 is formed in the center as shown in Figure 4 through which the raw water or sand passes. The impact load buffer 25 serves to prevent the vortex caused by the inflow of raw water by maximizing the inflow area.

On the upper end of the filtration tank 11, a drive unit 21 composed of a motor 22 and a speed reducer 23 is fixedly installed. Both ends of the feed screw 11 are coupled to the lower end of the reducer 23 and the lower end of the filtration tank 11 so as to be vertically installed along the center of the inside of the filtration tank 11. The feed screw 15 is composed of a screw shaft and a screw blade so that the sand of the sand filtration layer 100 placed on the screw blade is transferred upward of the filtration tank 11 by the rotation of the feed screw 15.

A feed tube 16 is installed around the feed screw 15 so that the sand on the wing of the feed screw 15 is spaced about 1 mm from the blade tip of the feed screw 15 so that the sand does not fall during transfer by centrifugal force. And surrounds the feed screw 15. The conveying pipe 16 surrounds the conveying screw 15 except for a portion of the upper end and the lower end of the conveying screw 15.

The sand that has risen to the washing water chamber 17 by the transfer screw 15 is lowered in the washing water chamber 17 provided directly below the driving unit 21, so that the transfer pipe 16 is connected to the washing water chamber 17. This is because the sand on the screw blades, which are terminated at an intermediate height of and which are not enclosed by the feed tube 16, fall around. Openings 18 are formed in the lower surface of the washing water chamber 17 to allow sand to pass therethrough, and sand falling through the openings 18 forms a center well 20 connected to the lower surface of the washing water chamber 17. Will pass. The center well 20 is for preventing sand from being dispersed from the upper end of the filtration tank 11. The sand passing through the center well 20 is uniformly dispersed and dropped by the coarse sand separation buffer 27 coupled to the outer surface of the transfer pipe 16. The sand descending from the washing water chamber 17 and passing through the center well 20 and the sand separation buffer 27 is stacked again into the sand filtration layer 100 and reused for water purification.

On the other hand, the washing water (sludge liquor) which is brought to the washing water chamber 17 by the transfer screw 15 is connected to the aeration tank (not shown) by the washing water pipe 19 and reprocessed in the aeration tank again to inlet pipe 13 Inflow through)

Three air lift tubes 24a, 24b, and 24c for injecting air supplied from an air compressor (not shown) penetrate the walls of the filtration tank 11 from the outside of the filtration tank 11, respectively. It is installed to spray air into the transfer pipe 16 through the upper, middle and lower walls. The flow rate of the air injected from the air lift pipes 24a, 24b, and 24c is 0.1 to 0.2 m ³ / min. Since there is a difference in height, the pressures of the air lift pipes 24a, 24b and 24c are different from each other. It is preferable that the injection speeds of the air lift pipes 24a, 24b, and 24c provided are the largest, and the injection speed of the air lift pipes 24a, 24b, and 24c provided below is the smallest.

The air lift pipes 24a, 24b, and 24c are installed in the transfer pipe so that the nozzle holes are inclined obliquely from the top downwards as shown in Fig. 3. This is because the nozzle hole is easily clogged by sand when the nozzle hole is directed upward.

As described above, according to the screw upflow filter according to the present invention, by using the multi-stage airlift pipe and the conveying screw, sand adsorbed sludge is reliably ascended to the upper layer by the screw and bumps against each other. Excellent effect of desorption of foreign matter from sand due to the action of air spraying every time, the recycling rate of sand media is improved to 95% or more, and a circular buffer is installed at the bottom, so that the vortex caused by the inflow of wastewater There is an advantage that the sand filter medium is prevented from disappearing due to the phenomenon.

As described above, the present invention has been described only with respect to specific examples, but it will be apparent to those skilled in the art that various modifications and changes can be made within the technical spirit of the present invention based on the above specific examples. And modifications belong to the appended claims.

Claims (10)

delete A filter tank having a sand filtration layer formed therein, having an inlet pipe at a lower portion so that raw water flows in, and the raw water passing through the sand filtration layer is moved upwards to remove contaminants and overflow from the treated water bank. A filtration tank having a treatment water pipe at an upper portion thereof to be discharged, a driving unit including a motor installed at an upper end of the filtration tank, and installed in a vertical direction in the filtration tank and connected to the driving unit to allow sand to be driven by the motor. And a washing water chamber having an opening formed at a bottom thereof so that the washing screw, which is installed at the upper end of the feeding screw, washes sand transferred through the feeding screw, and the transferred sand falls to the sand filtration layer. In order to discharge the washing water in the washing water chamber of the washing water chamber and the filtration tank A washing water pipe installed to communicate with the unit, and a transfer pipe surrounding the transfer screw to facilitate the transfer of sand, the upper end of which is in communication with the inside of the washing water chamber and the lower end thereof is a sand filtration layer under the filtration tank. A transfer pipe installed to communicate with the air pipe and an air lift pipe installed to penetrate the wall of the transfer pipe to raise contaminated sand by spraying air supplied from an air compressor outside the transfer pipe into the transfer pipe. In one screw upflow filtration filter, The outer circumferential edge of the impact load buffer is coupled to an inner surface of the upper portion of the inlet pipe communicating with the inlet pipe, and a hole is formed in the center of the impact load buffer and is inclined downward toward the hole of the center, and the air lift pipe Screw upflow filtration filter, characterized in that coupled to the end of the transfer pipe facing downward. delete delete delete delete delete delete delete delete

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