KR101207149B1 - Apparatus for filtering adulteration of wastewater - Google Patents

Abstract

PURPOSE: An apparatus for filtering impurities from sewage is provided to prevent damage to an underwater pump caused by impurities flowing into the underwater pump. CONSTITUTION: An apparatus for filtering impurities from sewage comprises a holder(200), a bucket screen(100), a guide bar(400), an upper bracket(110), and a lower bracket(120). The holder is installed inside a manhole pump station(10) to be separated downward from a sewage inlet pipe(20). The bucket screen is formed in a mesh structure and can be drawn into/out of the manhole pump station. When the bucket screen is placed on the holder, the bucket screen is rotated to be inclined toward the inner wall of the manhole pump station. The guide bar is extended downward toward the holder. The upper and lower brackets are formed on the top and bottom of the bucket screen, and the guide bar penetrates through the upper and lower brackets.

Description

Apparatus for filtering adulteration of wastewater

The present invention relates to a filtering device for filtering contaminants contained in sewage, and more particularly, to a filter screen for filtering the contaminants, the bucket screen is mounted to the lower side of the sewage inlet pipe.

As Korea's sewerage rate increases and the importance of the water quality environment increases, sewage treatment plants are being built up to the small villages of local governments. In general, the sewage treatment plant includes a manhole pumping station for temporarily storing and discharging the sewage for the purpose of economically and efficiently treating rainwater / sewage (hereinafter, abbreviated as “sewage”). A sewage inflow pipe through which sewage flows is installed on the side wall of the manhole pumping station, and an underwater pump for discharging the introduced sewage to the outside is installed inside the manhole pumping station.

At this time, the sewage supplied into the manhole pumping station includes various kinds of contaminants such as garbage and foreign substances, and when such contaminants are sucked into the underwater pump, a problem occurs that the underwater pump is broken. In order to prevent this, a method of preventing a phenomenon in which a contaminant is sucked into the submersible pump by attaching a porous mesh to the end of the suction tube has been proposed.In this case, the inhalation of water is normally performed as the contaminant blocks the suction tube of the submersible pump. There is a risk of unsupported, so it is necessary to clean it periodically, and it is difficult to maintain and repair because it must continuously observe whether the porous mesh is not corroded or damaged.

In particular, since the underwater pump installed in the manhole pumping station is located under the water surface, there is a disadvantage that the task of periodically cleaning and continuously observing the underwater pump is very difficult.

The present invention has been proposed in order to solve the above problems, even if the wastewater discharged through the sewage inlet pipe is first filtered and then filled in the manhole pumping station, even if the water pump is not periodically cleaned or continuously managed. It is possible to prevent damage, and the bucket screen to filter out the contaminants contained in the sewage can be easily drawn in and out of the manhole pumping station, so it is very easy to handle the collected contaminants, and the bucket screen adheres to the wall of the manhole pumping station, It is an object of the present invention to provide a contaminant filtering device configured to filter all wastewater discharged through the bucket screen.

In order to achieve the above object, an apparatus for filtering a contaminant according to the present invention is an apparatus for filtering contaminants of filthy water supplied into a manhole pumping station through a sewage inlet pipe provided on an inner wall of the manhole pumping station. A cradle installed at a point spaced downward from the sewage inflow pipe; It is formed of a network structure having an opening on the upper side is drawn and drawn into and out of the manhole pump field, the bucket screen can be seated on the cradle so that the opening is located at a lower point than the sewage inlet pipe.

The cradle is formed a point farther from the inner wall of the manhole pump field than a point closer to the inner wall of the manhole pump field, so that the bucket screen is rotated to be inclined toward the inner wall of the manhole pump field when seated on the cradle.

The top of the bucket screen is in contact with the inner wall of the manhole pump field.

The cradle is inclined in a direction that increases as the distance from the inner wall of the manhole pump field.

The cradle is coupled to an inner wall of one side of the manhole pump field, and includes a protrusion supporting portion protruding upward to support one side of the bottom surface of the bucket screen, wherein the protrusion support portion has a distance from the inner wall of the manhole pump field of the bottom of the bucket screen. The bucket screen is positioned to support a portion farther than the vertical center point.

The protruding support portion is coupled to the holder in a structure in which a distance protruding upwardly is adjustable.

The protruding support is applied by bolts whose ends are mounted to penetrate upwardly through the holder.

A guide bar extending downward toward the holder; The bracket is provided on the bucket screen, the guide bar is penetrated in a slidable structure; further includes.

The guide bar has a lengthwise one side fixedly coupled to a structure (not shown) provided outside the upper side of the manhole pump field, and the other side thereof is extended downward to be fixedly coupled to the holder.

The bracket includes an upper bracket and a lower bracket respectively provided on the upper and lower sides of the bucket screen, and the upper bracket has a slot having a length in a direction away from an inner wall of the manhole pumping field, through which the guide bar can pass. The lower bracket is formed with an insertion hole through which the guide bar can pass.

The longitudinal direction of the slot is formed to be perpendicular to the axis of rotation of the bucket screen.

The upper bracket and the lower bracket are provided in pairs on the left and right sides of the bucket screen with respect to the direction facing the inner wall of the manhole pump field, and the guide bars are respectively provided on the left and right sides of the bucket screen. It is provided in pairs to penetrate the bracket.

In the contaminant filtering device according to the present invention, the sewage discharged through the sewage inlet pipe is primarily filtered and then filled in the manhole pumping station, thereby preventing the water pump from being damaged due to the inflow of the contaminants into the submersible pump. The bucket screen to filter out the contained contaminants can be easily drawn in and out of the manhole pumping station, which makes it easy to handle the collected contaminants, and the bucket screen adheres to the wall of the manhole pumping station so that sewage does not pass through the bucket screen. There is an advantage that can prevent the phenomenon flowing into the inside.

1 is a side view showing the installation structure of the contaminant filtering device according to the present invention.
2 and 3 are side views showing an operation example of the second embodiment of the contaminant filtering device according to the present invention.
4 and 5 are side views showing an operation example of the third embodiment of the contaminant filtering device according to the present invention.
6 to 9 are a perspective view and a side view showing an operation example of the fourth embodiment of the contaminant filtering device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the contaminant filtering device according to the present invention.

1 is a side view showing the installation structure of the contaminant filtering device according to the present invention.

The contaminant filtering device according to the present invention is a device for filtering the contaminants of the sewage supplied into the manhole pumping station 10 through the sewage inlet pipe 20 provided on the inner wall of the manhole pumping station 10, the interior of the manhole pumping station 10 The cradle 200 is installed at a point spaced downward from the sewage inflow pipe 20 and formed in a mesh structure having an opening at an upper side thereof so that the opening is seated on the cradle 200 so that the opening is located at a point lower than the sewage inflow pipe 20. Possible bucket screen 100 is configured to include. In this case, an inlet 12 through which the bucket screen 100 can pass is formed on the upper side of the manhole pumping station 10, and the lifting screen 300 is connected to the bucket screen 100, and the user lifts the wire 300. By pulling or releasing the bucket screen 100 through the inlet 12 can be drawn into and out of the manhole pumping station (10).

As shown in FIG. 1, after the bucket screen 100 is introduced into the manhole pumping station 10 through the inlet 12, the lifting screen 300 is continuously released, and the bucket screen 100 is a holder 200. When the sewage is supplied into the vanhole pumping station through the sewage inflow pipe 20 in this state, the sewage fills the manhole pumping station 10 through the bucket screen 100. The sewage supplied to the manhole pumping station 10 includes various contaminants, and these contaminants are filtered in the process of passing the sewage through the bucket screen 100 and are accumulated in the bucket screen 100.

As such, when the contaminant filtering device according to the present invention is installed in the manhole pumping station 10, even if the contaminant is included in the sewage supplied to the manhole pumping station 10, the contaminants are accumulated in the bucket screen 100 and toward the submersible pump 30. Bar is not introduced, there is an advantage that can prevent the damage and the performance degradation of the underwater pump 30 due to the inflow of the contaminants even if a separate porous mesh or the like is not installed in the underwater pump (30).

On the other hand, when the contaminants accumulate in the bucket screen 100 or more than the reference value, the bucket screen 100 is blocked, and thus the sewage supplied to the inside of the bucket screen 100 is not quickly discharged. (100) should be emptied periodically. In this case, the bucket screen 100 included in the present invention is configured to be drawn out of the manhole pumping station 10 by pulling the lifting wire 300 instead of being fixedly installed in the manhole pumping station 10. It is very easy to remove impurities in the bucket screen 100 and to remount the bucket screen 100.

2 and 3 are side views showing an operation example of the second embodiment of the contaminant filtering device according to the present invention.

When the end of the sewage supply pipe into which the sewage is introduced is located on the same surface as the inner wall surface of the manhole pumping station 10, when the sewage is discharged from the sewage supplying pipe, a part of the contaminants contained in the sewage is formed on the inner wall of the manhole pumping station 10. Ride flows down and falls into the bottom of the manhole pumping station 10 without accumulating in the bucket screen 100, and contaminants flow into the submersible pump 30, thereby damaging the submersible pump 30. Therefore, it is preferable that the sewage supply pipe is installed so that the end protrudes a predetermined distance from the inner wall of the manhole pumping station 10 as shown in FIG.

At this time, the bucket screen 100 can only be lifted in the vertical direction only by pulling or releasing the lifting wire 300, but does not move in the lateral direction, so that the bucket screen 100 as much as possible for the manhole pumping station 10 The bucket screen 100 is less likely to be located closer to the inner wall of the manhole pumping station 10 than the end of the sewage supply pipe even though the inner wall (more specifically, the inner wall of the side on which the sewage supply pipe is installed) is lowered. Therefore, when the sewage discharged through the sewage supply pipe has a certain level or more flow rate, it may be supplied to the inside of the bucket screen 100, but when the sewage discharged through the sewage supply pipe is discharged at a very low rate, the sewage inflow pipe Since it falls directly down from the end of the 20, that is, it is not filtered by the bucket screen 100 directly fall to the bottom of the manhole pump station 10, the contaminants contained in the sewage flow into the submerged pump 30 There is a problem that can be. In particular, when the hydraulic pressure of the sewage discharged from the sewage inflow pipe 20 toward the center of the manhole pumping station 10 is applied to the bucket screen 100 for a long time, the bucket screen 100 is a manhole pumping station due to the discharge pressure of the sewage ( 10) pushed toward the central direction, that is, the direction away from the inner wall of the manhole pumping station 10, when the flow rate of sewage is weakened, the sewage flows directly into the water pump 30 without passing through the bucket screen 100. This happens more frequently.

In order to solve the above problems, the apparatus for filtering the contaminant according to the present invention has a distance from the inner wall of the manhole pumping station 10 when the bucket screen 100 is introduced into the manhole pumping station 10. Even if it is farther from the end, when the bucket screen 100 is completed mounting on the holder 200, a portion of the inner space of the bucket screen 100 is closer to the inner wall of the manhole pump station 10 than the end of the sewage inlet pipe 20 It is preferable that the sewage inflow pipe 20 is configured to pass through the bucket screen 100 even if the sewage falls in the vertical direction.

As mentioned above, in order for a part of the bucket screen 100 to be closer to the inner wall of the manhole pumping station 10 than the end of the sewage inlet pipe 20, the cradle 200 is closer to the manhole pumping station 10 than the inner wall of the manhole pumping station 10. (10) It may be formed to be inclined so that the point far from the inner wall is high. When the cradle 200 is formed to be inclined, the bucket screen 100 descending through the inlet 12 is in a horizontal state until one side (right side in FIG. 2) of the bottom surface reaches the cradle 200 as shown in FIG. 2. However, when the lifting wire 300 is released more than the state shown in FIG. 2, the bucket screen 100 has a manhole pumping station 10 as shown in FIG. 3 such that the entire bottom surface thereof contacts the upper surface of the cradle 200. ) Inclined toward the inner wall, the inner space of the bucket screen 100 can be positioned at the vertical vertical point of the end of the sewage inflow pipe (20). In the state shown in FIG. 3, the flow rate of the sewage supplied through the sewage inflow pipe 20 is very low, so that even if the sewage falls down from the end of the sewage inflow pipe 20, the bucket screen 100 passes through the bucket screen 100. ) Can be prevented from entering the submersible pump 30 without being filtered.

Meanwhile, even when the sewage falls slightly inclined in a direction approaching the inner wall of the manhole pumping station 10 from the end of the sewage inflow pipe 20, the bucket screen 100 is a manhole pumping station so that the sewage may fall into the bucket screen 100. (10) When rotated to be inclined toward the inner wall, one side of the upper end is preferably in contact with the inner wall of the manhole pump field 10. In addition, as shown in FIG. 3, the bucket screen 100 is seated such that its upper end is pressed against the inner wall of the manhole pumping station 10 by its own weight, and the discharge pressure of the wastewater supplied through the sewage inlet pipe 20 is bucket Even if applied to the screen 100 there is also an advantage that the bucket screen 100 can be stably maintained without being moved in a direction away from the inner wall of the manhole pump field 10.

4 and 5 are side views showing an operation example of the third embodiment of the contaminant filtering device according to the present invention.

In the contaminant filtering device according to the present invention, when the bucket screen 100 is seated on the holder 200, the bucket screen 100 may be inclined toward the inner wall of the manhole pumping station 10 in which the sewage inflow pipe 20 is installed. And as shown in Figure 3 the cradle 200 is formed in a frame shape coupled to the inner wall of the manhole pump field 10 may be installed to be inclined in a direction that increases as far away from the inner wall of the manhole pump field 10, 4 and 5 as shown in Figure 5 and the mounting portion is disposed flat in the horizontal direction protruding support that is formed to protrude upward at a point where one side (right side in Figures 4 and 5) of the bottom of the bucket screen 100 is seated ( 210 may be provided.

The protruding support portion 210 is a portion of the bottom surface of the bucket screen 100, the distance from the inner wall of the manhole pump field 10 is farther than the vertical center point of the bucket screen 100 (bucket screen 100 in Figures 4 and 5). When the bottom of the bucket screen 100 is lowered through the inlet 12, as shown in Figure 4 when one side (right side in Figure 4) of the bottom contact the protruding support 210 as shown in FIG. While maintaining the horizontal state until, as shown in Figure 5 when the lifting wire 300 is released more than the state shown in Figure 4 so that the left of the bucket screen 100 in contact with the upper surface of the cradle 200 The manhole pump field 10 is inclined toward the inner wall. Therefore, the opening of the bucket screen 100 can be located at the vertical vertical point of the end of the sewage inflow pipe (20).

At this time, it may be necessary to change the inclination angle of the bucket screen 100 according to various conditions such as the type of the bucket screen 100 mounted on the holder 200, the embodiment shown in Figures 4 and 5 When the protrusion support 210 is additionally provided as described above, the inclination angle of the bucket screen 100 may be adjusted by adjusting the upward protrusion distance of the protrusion support 210. That is, when the upward protrusion distance of the protrusion support part 210 is lowered, when the bottom side of the bucket screen 100 is mounted on the protrusion support part 210, only a slight inclination occurs, and when the upward protrusion distance of the protrusion support part 210 increases, the bucket Since one side of the bottom surface of the screen 100 is inclined more than when mounted on the protrusion support 210, the user can easily adjust the inclination angle of the bucket screen 100 by adjusting the upward protrusion distance of the protrusion support 210. Will be.

At this time, the protruding support 210 is preferably applied to the end of the bolt is mounted so as to penetrate the pedestal 200 upward so that the upward protrusion distance adjustment can be made easily while maintaining the state coupled to the cradle (200). Do.

6 to 9 are a perspective view and a side view showing an operation example of the fourth embodiment of the contaminant filtering device according to the present invention.

In the contaminant filtering device according to the present invention, when the bucket screen 100 is lowered, the inlet 12 from the upper side of the manhole pumping station 10 may be lowered along a predetermined path without shaking in the front and rear and left and right directions. ) And a guide bar 400 extending downward toward the upper surface of the cradle 200 and a bracket coupled to the bucket screen 100 by a through hole formed to penetrate the guide bar 400 in a slidable structure. It may be provided.

At this time, when the guide bar 400 is shaken, the bucket screen 100 moving in a sliding manner along the guide bar 400 is also shaken, so that the guide bar 400 is one side in the longitudinal direction (in this embodiment, the top). ) Is fixedly coupled to a structure (not shown) provided outside the upper side of the manhole pumping station 10 and the other side in the longitudinal direction (lower in this embodiment) is fixedly coupled to the holder 200.

In addition, the bracket screen 100, so that the bracket is not rotated about the bracket, the bracket is preferably composed of the upper bracket 110 and the lower bracket 120, respectively provided on the upper and lower sides of the bucket screen 100, The through-holes formed in the upper bracket 110 and the lower bracket 120 are formed in accordance with the cross-sectional shape of the guide bar 400 so that the bucket screen 100 moves or rotates toward or away from the inner wall of the manhole pumping station 10. If it is configured to be impossible, there is a problem that the bucket screen 100 can not be inclined toward the inner wall of the manhole pump station 10 when it is seated on the holder 200.

Therefore, the through hole formed in the upper bracket 110 may be applied to the slot 112 having a length in a direction away from the inner wall of the guide bar 400 and the manhole pump field 10. At this time, when the through-hole formed in the lower bracket 120 is applied to the slot 112, the bucket screen 100 can be shaken in a direction closer to or farther from the inner wall of the manhole pumping station 10, thereby reducing the utility of the guide bar 400. In addition, the through hole formed in the lower bracket 120 may be applied to the insertion hole 122 that is manufactured according to the cross-sectional shape of the guide bar 400 such that the guide bar 400 is simply slidable in the longitudinal direction. In addition, when the bucket screen 100 is elevated or rotated (when tilted toward the inner wall), the upper bracket 110 and the lower bracket 120 are manhole pumped so that the bucket screen 100 does not move to any one side. 10 is provided in pairs on the left and right sides of the bucket screen 100 on the basis of the direction of the inner wall of the guide, and the guide bar 400 is also provided in pairs, the upper bracket 110 coupled to the left and right sides of the bucket screen 100, respectively. And it is preferably mounted to penetrate the lower bracket (120).

When the guide bar 400 and the upper bracket 110 and the lower bracket 120 are further provided as described above, the bucket screen 100 is lowered toward the holder 200 as shown in FIGS. 6 and 7. Lowered along the pair of guide bar 400 can be seated at the exact point that was previously designed, the other side of the bottom (Fig. 9) after one side of the bottom (right in Figure 7) is seated on the protrusion support 210 In the left) is inclined so as to contact the upper surface of the holder 200. At this time, the upper bracket 110 coupled to the upper side of the bucket screen 100 moves toward the inner wall of the manhole pumping station 10. The upper bracket 110 is a slot 112 through which the guide bar 400 passes. ) Is formed long in a direction away from the inner wall, so that the guide bar 400 does not interfere with the inner wall.

On the other hand, the insertion hole 122 formed in the lower bracket 120 is not a shape having a length in one direction like the slot 112 formed in the upper bracket 110, the guide bar 400 is only sliding in the longitudinal direction Since the bucket screen 100 is inclined toward the inner wall of the manhole pump field 10, the bucket screen 100 is not in close proximity to the inner wall but is rotated at an angle in place. As a result, when the bucket screen 100 is inclined toward the inner wall of the manhole pump field 10, the bucket screen 100 rotates using an imaginary line connecting two lower brackets 120 provided on the left and right sides as a rotation axis. At this time, the longitudinal direction of the slot 112 is preferably set to be perpendicular to the axis of rotation of the bucket screen 100 so that the bucket screen 100 is not twisted to the left and right in the tilting process.

As mentioned above, when the slot 112 is formed in the upper bracket 110 and the insertion hole 122 is formed in the lower bracket 120, the bucket screen 100 as well as the lifting and lowering of the bucket screen 100 are inclined. Since the direction and the angle can be constantly guided, there is an advantage that the bucket screen 100 can be seated inclined by the correct angle in the preset accurate direction regardless of the operator's skill.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

10: manhole pumping station 12: inlet
20: Sewage inflow pipe 30: Submersible pump
100: bucket screen 110: upper bracket
112: slot 120: lower bracket
122: insertion hole 200: holder
210: protrusion support 300: lifting wire
400: guide bar

Claims (3)

In the device for filtering the sewage of sewage supplied into the manhole pump station 10 through the sewage inlet pipe 20 provided on the inner wall of the manhole pump field 10,
Is installed at a point spaced downward from the sewage inlet pipe 20 of the inside of the manhole pumping station 10, the point farther from the inner wall of the manhole pumping station 10 than the point close to the inner wall of the manhole pumping station 10 Being a cradle 200;
Is formed of a network structure having an opening on the upper side can be drawn in and out of the manhole pump field 10, and can be mounted on the cradle 200 so that the opening is located at a lower point than the sewage inlet pipe 20, A bucket screen 100 that is rotated to be inclined toward an inner wall of the manhole pump field 10 when seated on the cradle 200;
A guide bar 400 extending downward toward the holder 200;
An upper bracket 110 and a lower bracket 120 provided at upper and lower sides of the bucket screen 100 to penetrate the guide bar 400 in a slidable structure;
/ RTI >
The upper bracket 110 has a slot 112 through which the guide bar 400 can penetrate and has a length in a direction away from the inner wall of the manhole pump field 10.
The lower bracket 120, the filter filter, characterized in that the insertion hole 122 through which the guide bar 400 is formed.
In the device for filtering the sewage of sewage supplied into the manhole pump station 10 through the sewage inlet pipe 20 provided on the inner wall of the manhole pump field 10,
A cradle (200) installed at a point spaced downward from the sewage inflow pipe (20) of the manhole pumping station (10);
Is formed of a mesh structure having an opening on the upper side can be drawn in and out of the manhole pump field 10, the bucket screen seated on the cradle 200 so that the opening is located at a lower point than the sewage inlet pipe (20) 100;
A protruding support portion 210 protruding upward from the cradle 200 so as to support one side of the bottom of the bucket screen 100, and coupled to the cradle 200 in a structure in which an upwardly protruding distance is adjustable;
Including, the bucket screen (100) is a filter for filtering impurities, characterized in that rotated to be inclined toward the inner wall of the manhole pump station (10) when seated on the cradle (200).
The method of claim 2,
A guide bar 400 extending downward toward the holder 200;
An upper bracket 110 and a lower bracket 120 provided at upper and lower sides of the bucket screen 100 to penetrate the guide bar 400 in a slidable structure;
More,
The upper bracket 110 has a slot 112 through which the guide bar 400 can penetrate and has a length in a direction away from the inner wall of the manhole pump field 10.
The lower bracket 120, the filter filter, characterized in that the insertion hole 122 through which the guide bar 400 is formed.

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