KR100558135B1 - Rectangle type suction sludge collector - Google Patents

Abstract

The present invention is to install the discharge orifice pipe at regular intervals on the bottom surface of the sedimentation basin to purify the sewage and waste water and by installing a vertical connection tube equipped with a telescopic valve on the top side to discharge the sludge into the discharge water channel As the sludge continues to be pushed by the entire length of the bottom of the sedimentation basin, the sludge can not only be prevented from being diffused back into the water, but also to prevent the sludge from decaying and generating odors for a long time in one place such as a hopper. It is a rectangular suction type sludge collector, which has a sedimentation basin for supplying sewage and waste water for water purification, and the sedimentation basin is provided with a main chain installed with a plurality of flights to drive the power of the driving unit controlled by the control panel. In the sludge collector which is allowed to pass through the chain, The sedimentation basin of the sludge collector embeds a plurality of discharge orifice tubes on the bottom thereof, and forms a plurality of suction ports on the top surface of the discharge orifice tube, and connects a vertical connector to one side of the discharge orifice tube to connect the vertical connection thereof. After the upper end of the pipe extends to the discharge passage, the invention can be achieved by installing a telescopic valve having a discharge port and a control handle on the upper end of the vertical connection pipe.

Suction Sludge Collector, Sludge, Orifice, Telescopic Valve

Description

Rectangle type suction sludge collector             

1 is a side view showing a sludge collector according to the present invention;

Figure 2 is a partial cutaway perspective view showing the main part of the present invention

Figure 3 is a longitudinal sectional view showing the main portion of the present invention in partial cross-section

Figure 4 is a side view showing a conventional sludge collector

Explanation of symbols on the main parts of the drawings

1: sludge collector 2: sedimentation basin

3: bottom surface 4: discharge channel

8: Main Chain 9: Flight

10: discharge orifice pipe 11: intake port

12: vertical connection tube 13: telescopic valve

14: discharge port 15: adjusting handle

The present invention relates to a sludge collector which removes sediment generated when the sewage and wastewater are purified.

In particular, the present invention relates to a rectangular suction type sludge collector which cleans sewage and wastewater and collects the sludge settled at the bottom of the sedimentation basin by the sludge discharge orifice through the continuous operation of the flight without a hopper.

In general, a chain flight type sludge collecting device that collects sediments generated when water purification of sewage and wastewater is purified. When a sludge, which is a sediment, is accumulated on the floor, a pair of chains are driven by a motor and rotated to an endless track. Rotating the flight horizontally between a pair of chains together with the chain allows the flight to push the sludge accumulated on the floor into the hopper to be discharged to the outside.

In the conventional sludge collecting device as described above, as shown in FIG. 4, a pair of drive chains 54 are installed to rotate indefinitely from the inner bottom surface of the sludge collector 51 to the surface of the water, and the drive chain ( 54 is connected to the drive unit 53 is controlled by the control panel 52 to rotate, the drive chain 54 is provided with a plurality of flights 55 at equal intervals to rotate with the drive chain 54 The flight 55 is configured to discharge the sludge deposited on the bottom surface by pushing the hopper 56.

However, the conventional sludge collecting device as described above removes the sludge from the bottom of the sedimentation basin to the hopper 56 while continuously pushing the sludge to remove the sludge and takes only a portion of the hopper 56 that has an arced pipe. There was a problem of long-term residence of the sludge.

In other words, if the sludge accumulated in the hopper is not removed quickly, there is a problem that not only causes various contaminations over time, but also causes odors.

In particular, when the sludge is removed from the rear by the flight 55, the sludge pushed by the flight is gradually increased, the sedimentation sludge may be disturbed. As a result, the precipitated sludge is diffused back into the water, which causes many difficulties in water purification. In addition to the following problems, long-term sludge retention in the hopper may cause decay or gas, which adversely affects water purification and continuously pushes the sludge, resulting in overloading of the flight 55. There were problems such as breakage and breaking of the chain 54.

Therefore, an object of the present invention is to remove the sludge precipitated at the bottom of the sedimentation basin with a fly that continuously moves in the sludge collector, which is generated when the sewage and wastewater are purified, and the outlet orifice pipe is installed at regular intervals on the bottom of the sedimentation basin. On one side, a vertical connection pipe equipped with a telescopic valve is installed on the top to discharge the sludge into the discharge channel, thereby preventing the sludge from spreading again as the sludge continues to be pushed by the entire length of the bottom surface of the sedimentation basin. In addition, the present invention provides a rectangular suction type sludge collector for preventing sludge from decaying and generating odor while prolonged residence in one place such as a hopper.

The purpose of the present invention is to simplify the civil structure by omitting the hopper from the existing chain flight sludge collector, install a discharge orifice tube formed with a plurality of suction ports on the bottom of the sedimentation basin, vertical connection pipe on one side of the discharge orifice tube After the connection, the upper end of the vertical connecting pipe located inside the discharge passage can be achieved by having a telescopic valve having a water discharge port so that the sludge can be quickly discharged by the water head difference between the sedimentation basin and the discharge passage.

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

A sedimentation basin (2) is provided to supply fresh water and wastewater for water purification, and the sedimentation basin (2) is controlled by the control panel (5) by installing a main chain (8) provided with a plurality of flights (9). In the sludge collector 1 to receive the power of the drive unit 6 to be transmitted through the drive chain 7, the sedimentation basin 2 of the sludge collector 1 has a plurality of discharge orifice tubes on its bottom surface 3. (10) buried, and a plurality of suction ports (11) are formed on the upper surface of the discharge orifice tube (10), and the vertical connection pipe (12) is connected to one side of the discharge orifice tube (10) to the vertical After the upper end of the connection pipe 12 extends to the discharge channel 4, the telescopic valve 13 having a discharge port 14 and a control handle 15 is installed at the upper end of the vertical connection pipe 12. .

At this time, the discharge orifice pipe (10) embedded in the bottom surface (3) of the sedimentation basin (2) is configured in a tapered shape gradually increasing in cross section from one end to the place where the vertical connection pipe 12 is connected, the discharge orifice pipe The upper surface on which the suction port 11 is formed is embedded in the discharge orifice tube 10 so as to be horizontal with the bottom surface 3.

In addition, the telescopic valve 13 provided in the discharge channel 4 is installed so that the position of the discharge port 14 is lower than the level of the sedimentation basin 2, the discharge handle 14 is turned by turning the control handle 15 It is configured to adjust the height of the formed telescopic valve 13 up and down.

The present invention configured as described above operates the drive unit 6 controlled by the control panel 5 when sludge is deposited on the bottom surface 3 of the sewage basin and the wastewater in the sedimentation basin 2. By operating the main chain (8) connected by (7) a plurality of flights (9) installed at equal intervals on the main chain (8) pushes the sludge deposited on the bottom surface (3) and the discharge orifice pipe (10) Through the vertical connection pipe 12 and the telescopic valve 13 to be discharged to the discharge channel (4).

That is, the sludge collector 1 of the present invention continuously pushes the sludge settled by a plurality of flights 9 continuously installed on the main chain 8, and the sludge pushed by the flight 9 is the settling basin 2. Is sucked into the suction port 11 of the discharge orifice tube 10 installed on the bottom surface (3).

Sludge sucked into the inlet 11 of the discharge orifice tube 10 as described above moves in the direction in which the vertical connection tube 12 is connected inside the discharge orifice tube 10, and then along the vertical connection tube 12. As it is raised, it is discharged to the discharge channel 4 through the discharge port 14 of the telescopic valve 13.

At this time, when the sludge moves as described above, when the outlet 14 of the telescopic valve 13 is set to a position lower than the sewage and wastewater levels contained in the sedimentation basin 2, the sludge under the sedimentation basin 2 is caused by the water head difference. The sludge in the bed is sucked into the drainage channel 4 and moved.

That is, when a plurality of flights (9) is pushed to the inlet 11 of the discharge orifice pipe 10 by pushing the sludge deposited on the bottom surface 3 of the sedimentation basin (2), the sludge of the lower sludge layer by the water head difference Sludge sucked into the discharge orifice tube 10 because it is sucked through the (11) is moved to the vertical connection pipe 12 and the telescopic valve 13 in the direction in which the sewage and waste water is moved by the head difference discharge port 14 It is discharged to the discharge channel (4) through.

As described above, the discharge orifice pipe 10 which sucks the sludge from the bottom surface 3 of the sedimentation basin 2 has a phenomenon in which sludges are collected toward the vertical connection pipe 12, so that one end of the discharge orifice pipe 10 is formed. It is preferable to form the tapered so that the inner space gradually widens to the place where the vertical connection pipe 12 is connected in this way, and when the discharge orifice pipe 10 is formed to be tapered, the discharge orifice pipe 10 near the vertical connection pipe 12 is formed. ), The bottleneck of sludge migration can be prevented.

In addition, the discharge orifice pipe 10 for directly injecting sludge from the sedimentation basin 2 is preferably considering the direction of supplying sewage and wastewater to the sedimentation basin 2 and changing the buried interval.

That is, if sewage and wastewater are supplied to the sedimentation basin (2), the newly supplied sewage and wastewater will spread out throughout the sedimentation basin (2), but the sludge begins to sediment from the spreading process, so that more sludge near the supply to the sedimentation basin. Precipitation occurs, and the gap between the discharge orifice pipes 10 embedded in the bottom surface 3 of the sedimentation basin 2 is narrowed in consideration of such an imbalance of the amount of sediment sludge, and the flight (9) becomes narrower. In addition to being able to uniformize the load on the whole, it is possible to increase the working efficiency of the discharge orifice pipe 10, the vertical connection pipe 12 and the telescopic valve 13.

However, when the inflow of the sludge from the side of the sedimentation basin (2), since the inflow of sludge is constant in the longitudinal direction of the sedimentation basin (2) at this time, the installation interval of the sludge discharge orifice pipe (10) is constant.

On the other hand, the present invention can adjust the height of the telescopic valve 13 according to the amount of sludge precipitated on the bottom surface 3 of the sedimentation basin 2 can control the discharge of the sludge.

That is, when the handle 15 installed in the sludge collector 1 is rotated, the telescopic valve 13 can be inserted into or protruded into the vertical connection pipe 12 so that the height of the outlet 14 of the telescopic valve 13 can be adjusted. The water head difference caused by the difference in the height of the discharge port 14 of the telescopic valve 13 located in the water level of the sedimentation basin 2 and the discharge channel 4 can be adjusted.

By adjusting the water head difference as described above and reducing the water head difference, the sludge discharge rate can be reduced. When the water head difference is increased, the sludge discharge amount due to the large water head difference can be increased. Therefore, the discharge of sludge can be easily adjusted.

At this time, the height adjustment of the telescopic valve 13 may be a manual method of turning the control handle 15 by hand as shown in the figure, but may also use an electric method of rotating the shaft of the control handle 15 by a motor. .

The present invention is not limited only to the above-described examples, and when the amount of sludge deposited is large, the vertical connection pipe connected to the discharge orifice pipe can be installed on both sides of the discharge orifice pipe to discharge the sludge, and the shape of the chain flight sludge collector Various modifications are possible within the spirit and scope of the present invention, such as a change, a change in the shape and number of discharge orifice pipes, a change in the shape of sludge inflow and discharge, a change in the driving method and a shape change of the telescopic valve.

As described above, the present invention installs the discharge orifice pipe at regular intervals on the bottom surface of the sedimentation basin for purifying sewage and wastewater, and on one side thereof is installed a vertical connection pipe equipped with a telescopic valve on the top to discharge the sludge into the discharge water channel. By doing so, the sludge pushed by the flight at the bottom of the sedimentation basin can not only be prevented from being diffused back into the water, but also it can prevent the sludge from decaying and causing odor while staying in one place such as a hopper for a long time. Will be provided.

Claims (3)

A sedimentation basin (2) is provided to supply fresh water and wastewater for water purification, and the sedimentation basin (2) is controlled by the control panel (5) by installing a main chain (8) provided with a plurality of flights (9). In the sludge collector 1 to receive the power of the drive unit 6 to be transmitted through the drive chain (7), The sedimentation basin 2 of the sludge collector 1 embeds a plurality of discharge orifice tubes 10 on its bottom surface 3, and a plurality of suction ports 11 on an upper surface of the discharge orifice tube 10. To form, one side of the discharge orifice tube 10 is connected to the vertical connecting pipe 12 so that the upper end of the vertical connecting pipe 12 extends to the discharge channel 4, the vertical connecting pipe 12 The rectangular suction type sludge collector, characterized in that the upper end of the discharge port 14 is provided by installing a telescopic valve (13). The method of claim 1, The discharge orifice tube 10 embedded in the bottom surface 3 of the sedimentation basin 2 is configured in a tapered shape with a gradually increasing cross section from one end to the place where the vertical connection pipe 12 is connected, and the discharge orifice tube ( Rectangle suction type sludge collector, characterized in that the upper surface formed with the suction port 11 of the 10 is embedded by burying the discharge orifice tube 10 to be horizontal to the bottom surface (3). The method of claim 1, The telescopic valve 13 provided in the discharge channel 4 is installed so that the position of the discharge port 14 is lower than the level of the sedimentation basin 2, and the telescopic valve 13 in which the discharge port 14 is formed is Rectangle suction type sludge collector characterized in that it is provided with a control handle 15 to adjust the height up and down.

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