KR0118152Y1 - Automatic discharge apparatus for sludge of sedimentation basin - Google Patents

Abstract

The present invention relates to a sludge automatic discharge device of the sedimentation basin is installed in the sedimentation basin, such as water, sewage treatment plant to discharge the sludge collected in the sludge hopper of the sedimentation basin. Conventional sludge discharge device requires expensive auxiliary equipment for electric motors and air facilities, and in the discharge process of sludge, accurate opening and closing operation of the valve is not performed due to various sludge and dirt, and occurs in the valve itself. There was a problem that the loss of raw water is followed by the leak. The present invention has a water-sealed pipe portion at the upper side of the siphon pipe installed over the sludge hopper and the drainage of the sedimentation basin, and as the siphon is formed in the siphon pipe, the sludge discharge means for sucking and discharging the sludge of the sludge hopper into the drainage tank; And siphon forming means for discharging the air filled in the curved portion of the siphon pipe top by using an ejector disposed in the sedimentation basin to form a siphon in the siphon tube, without using a separate sludge discharge pump. By configuring the sludge collected in the hopper to be automatically discharged, it is possible to eliminate the use of valves and auxiliary equipments such as conventional electric valves or pneumatic valves, and to discharge sludge of the sedimentation basin more conveniently and economically. It is possible to completely exclude the fear of leakage.

Description

Sludge Discharge Device of Sedimentation Basin

Figure 1 is a longitudinal sectional view of the sedimentation basin is installed device.

Figure 2 is an enlarged longitudinal cross-sectional view showing the configuration of the device of the present invention.

Figure 3 is an enlarged side view showing the configuration of the device of the present invention.

Figure 4 is a plan view showing the installation state of the device of the present invention.

5 is a partially cutaway exploded view for showing the action of the device in the present invention.

＊ Explanation of symbols on main parts of drawing

1: sedimentation basin 2: sludge hopper

3: drainer 10: sludge discharge means

11: siphon pipe 11A: upflow pipe

11A ': Inlet 11B: Curved pipe

11B ': Reducer 11C: Downflow pipe

12: siphon breaker 13: water seal tube

22: siphon forming means 21: suction pipe

22: discharge pipe 23: ejector

23a: suction port 23b: nozzle

24: raw water supply pipe 24a: raw water inlet

25: protective cylinder 26: solenoid valve

The present invention relates to a sludge discharge device of a sedimentation basin installed in a sedimentation basin such as a water and sewage treatment plant, and discharges sludge collected in a sludge hopper of the sedimentation basin. By discharging sludge of the sludge hopper using the present invention relates to a sludge automatic discharge device of the sedimentation basin is easy to operate, economical and eliminates the risk of leakage.

As a conventional sludge discharging means for discharging sludge collected in the sludge hopper on one side of the bottom of the sedimentation basin by the sludge collector to the outside of the sedimentation basin, an electric valve or a pneumatic valve is installed in the sludge discharge pipe installed at one side wall of the sludge hopper. According to the opening and closing operation of these valves, the sludge discharge device for discharging the sludge to the ground is widely used.

However, in the conventional sludge discharge device as described above, not only has the disadvantage of complicated and expensive facility costs for the electric motor and the air facility, but also various sludges, including sludge, in the discharge process of the sludge. There is a problem such that the abnormality in the operation of the valve is not inserted into the inside of the valve to prevent the correct opening and closing of the valve, as well as a loss due to the leakage of the valve itself.

Therefore, the main object of the present invention is to provide a sludge automatic discharge device of the sedimentation basin does not have the above disadvantages and problems.

Another object of the present invention is to provide a sludge automatic discharge device of the sedimentation basin which is simpler and more economical by eliminating the use of auxiliary equipment such as an electric valve or a pneumatic valve for discharge of sludge.

Another object of the present invention is to provide a sludge automatic discharge device of the sedimentation basin without any fear of leakage due to the installation and operation of the mechanical sludge discharge facility using a separate power.

The purpose of the present invention as described above is provided with a water-sealed pipe portion on the upper side of the siphon pipe installed over the sludge hopper and the drainage of the sedimentation basin and siphon is formed in the siphon pipe, the sludge of the sludge hopper is discharged to the drain Sludge discharging means for forming the siphon pipe in the siphon pipe by discharging the air filled in the curved portion of the top of the siphon pipe to the outside of the pipe by using the discharge water pressure of the sedimentation basin passing through the ejector. It can be achieved by automatic discharger.

Hereinafter, the automatic discharge device of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a side view of the sedimentation basin in which the sludge discharge device of the present invention is installed, and FIG. 2 is an enlarged longitudinal cross-sectional view of the configuration and installation state of the device of the present invention, and FIG. 3 is a cross-sectional view taken along line AA of FIG. As a plan view showing the installation state, as shown in the sludge automatic discharge device according to the present invention, one end of the tubular body is disposed on the lower side of the sludge hopper (2) of the sedimentation basin (1) and the other end of the tubular drainage tank (3 Required to form the siphon shaker 12 and siphon for brdaking the siphon inside the siphon tube 11 at the top and top of the siphon tube 11 installed to be exposed to A sludge discharge means (10) having a water sealing tube (13) and discharging the sludge accumulated in the sludge hopper (2) to the drainage tank (3) as siphon is formed in the siphon tube (11) body; The ejector 33 is operated between the suction pipe 21 and the discharge pipe 22 installed over the government of the siphon pipe 11 and the drainer 3 by the discharge water pressure of the raw water in the sedimentation basin 1. The siphon forming means 20 forms siphon in the siphon tube 11 by discharging the air filled in the top of the siphon tube 11 to the outside with suction force generated in the ejector 23.

The siphon pipe 11 of the sludge discharge means 10 is sludge at the lower end and the upper end of the upflow pipe 11A installed vertically from the lower portion of the sludge hopper 2 to the water surface HWL of the sedimentation basin 1. An inlet 11A 'and a reverse U-shaped curved portion 11B which are exposed on the surface of the water to form the siphon breaker 12 are respectively formed, and an S-shaped water sealing tube is formed at the lower end of the curved portion 11B. One end of the (13) is connected, the other end of the water sealing tube 13 is connected to the upper end of the vertical downflow pipe (11C) and the lower end of the downflow pipe (11C) is a drainage tank installed on one side of the settling basin ( 3) is exposed.

The curved pipe portion 11B has a bottom surface of the curved circumferential wall formed in an inverted U-shape and is provided at a predetermined distance (about 100 mm) from the water surface HWP of the sedimentation basin ①, and the discharge end portion of the curved pipe portion 11B. That is, a reducer (11B ') formed by gradually reducing the diameter of the curved tube portion 11B tube having a constant aperture is installed at the lower end portion of the curved tube portion 11B connected to one end of the water sealing tube 13. When the siphon is formed through the siphon tube 11, sludge and raw water sucked through the constant upflow pipe 11A are lowered through the reducer 11B 'of the curved portion 11B. By forming the siphon can be easily made.

The siphon breaker 12 for releasing the siphon formed in the inside of the curved portion 11B is provided at one side of the curved portion 11B.

On the other hand, the siphon forming means 20 is connected to the upper end of the suction pipe 21 for sucking the air filled in the curved pipe portion 11B at the top of the curved pipe portion 11B of the siphon pipe 11, and in the vertical direction The lower end of the suction pipe 21 is disposed is connected to the suction port 23a side of the ejector 23 installed in the lower portion of the sedimentation basin 1, and the discharge port side of the ejector 23 is connected to the secondary collection unit 3. The upper end of the discharge pipe 22 is connected.

The ejector 23 is generally used for transporting and supplying a fluid, and a raw water supply pipe 24 for supplying raw water in the water of the settling basin 1 to the inside of the ejector 23 on the pressure inlet side of the ejector 23. ) Is connected to the lower end, and the raw water inlet 24a of the raw water supply pipe 23 is disposed in the upper portion of the water of the sedimentation basin 1, and as the raw water inlet 24a is opened, the upper part of the sedimentation basin 1 is opened. The raw water is discharged through the nozzle 23b of the ejector 23.

Raw water feeding tool (24a) formed in the upper end of the raw water supply pipe (24) is penetrated through the protective control 25 installed on the upper side of the sedimentation basin (1) and is exposed to the upper portion of the underwater, the inside of the protective control (25) The solenoid valve 26 for opening and closing the said raw water inlet 24a is provided in the pipeline of the raw water supply pipe 24 located.

The protective control 25 is installed so that the raw water of the sedimentation basin 1 is not introduced into the cylinder, which is to protect the solenoid valve 26 of the electric drive method in the water.

Unexplained protection 12a in the figure shows an on-off valve installed in the siphon breaker 12.

Operation of the present invention sludge discharge device configured as described above and the resulting effects are as follows.

5 shows the upflow pipe 11A, the curved pipe portion 11B, the water sealing pipe 13, and the downflow pipe 11C of the siphon pipe 11 on the same plane in order to show the action of the sludge discharge device according to the present invention. A cross-sectional view showing a state in which the siphon inside the siphon tube 11 is released so as to be disposed, and the valve 12a of the siphon breaker 12 installed in the government of the curved portion 11B is released in the state of release of the siphon. Since it is in the open state, the level inside the water filled in the upflow pipe 11A of the siphon pipe 11 maintains the same water level (WL) as the water level (HWL) of the settling basin (!), And the water rod The inside of the pipe 13 is filled with raw water containing sludge, and the same water level WL '(WL') is maintained at both ends of the water sealing tube 13, that is, at both upper ends of the water sealing portion bent in a U shape. Inverted U-shaped connecting pipe part of the subsea tube 13, the downflow pipe 11C and the curved pipe part 11B. Inside the state in the air-filled.

In addition, in the above state, the solenoid valve 26 installed in the raw water supply pipe 24 of the forming means 20 is closed, so that the inflow of raw water through the raw water inlet 24a is blocked.

Thus, in the state in which the siphon in the siphon tube 11 is released in this way, the discharge of the sludge through the siphon tube 11 is in a stopped state.

When the siphon is to be formed in order to discharge the sludge in the above state, the valve 12a installed in the siphon breaker 12 of the siphon tube 11 is first closed, and then the siphon forming means 20 is formed. Open the solenoid valve 26 of the raw water supply pipe 24 installed in the protective cylinder 25 of the supply water to the ejector 23, the raw water of the upper layer of the sedimentation basin (1) flowing through the raw water inlet (24a).

When raw water is supplied to the ejector 23 in this manner, as raw water is discharged from the nozzle 23b therein, suction force is generated on the suction port 23a side of the ejector 23 and the suction force acts on the suction pipe 21. As a result, the suction force through the suction pipe 21 acts on the curved pipe portion 11B of the siphon pipe 11. However, at this time, since the raw water is filled in the upflow pipes 11A and the water sealing pipes 13 connected to both sides of the curved pipe portion 11B, the air filled in the curved pipe portion 11B by the suction force is ejected through the suction pipe 21. The air is sucked into the inside of the 23, and the air sucked in this way is discharged to the drainer 3 through the discharge pipe 22 together with the raw water supplied from the raw water supply pipe 21.

As described above, when the air in the curved pipe portion 11B connected to the suction pipe 21 is gradually discharged, the raw water (raw water containing sludge) gradually filled up in the upper side of the upflow pipe 11A instead of the discharged air. Filled in the pipe portion 11B is over the top, and thus the raw water passing through the curved pipe portion 11B is then downflow pipe through the reducer (11B ') and the water sealing tube 13 formed on the lower side of the curved pipe portion (11B). By flowing out to 11C, the siphon is formed in the siphon tube 11.

At this time, in the step of forming the siphon as described above, the raw water introduced into the curved portion 11B flows downward through the reducer 11B ', thereby causing a delay in the outflow of the downward water, thereby forming the siphon h. It can be done easily.

When the siphon is formed in the siphon tube 11 as described above, the sludge of the sludge hopper 2 is sucked through the suction port 11A 'opened at the lower end of the downflow pipe 11A. The sludge is discharged to the drainage basin 3 through the curved pipe part 11B, the sealing part 13, and the downflow pipe 11C, so that the sludge collected in the sludge hopper 2 can be automatically discharged.

On the other hand, when the formation of the siphon is completed as described above to close the solenoid valve 26 installed in the raw water supply pipe 24 of the siphon forming means 20 to block the supply of raw water through the raw water inlet (24a).

In addition, when the sludge is discharged according to the sludge discharge action as described above, the discharge of the sludge is stopped by opening the siphon breaker 12 of the siphon tube 11 to release the siphon.

As described above, the sludge automatic discharge device of the present invention has a water sealing pipe portion at the upper side of the siphon pipe installed over the sludge hopper and the drainage of the sedimentation basin and the sludge of the sludge hopper as the siphon is formed in the siphon pipe. Sludge discharge means for suctioning and discharging to the drainage tank, and the air filled in the curved part of the top of the siphon pipe through the ejector.

The excess is provided with a siphon forming means for forming a siphon in the siphon pipe by discharging to the outside of the tube by using the discharge water pressure of the sedimentation basin, and automatically discharges the sludge collected in the sludge hopper in the sedimentation basin without using a separate sludge discharge pump. Since it is configured to make the sludge hopper, the use of additional frosts such as electric valves or pneumatic valves used to discharge sludge hopper sludge can be eliminated, which makes the installation and operation of the device simpler and more economical. In addition, there is an effect such that the possibility of leakage due to the installation and operation of a separate power equipment can be completely excluded.

Claims (6)

A siphon breaker 12 and a water sealing tube 13 are respectively provided on the top and upper portions of the siphon tube 11 provided between the sludge hopper 2 and the drainage basin 3 of the sedimentation basin 1, and the siphon tube Sludge discharge means (10) for sucking the sludge of the sludge hopper (2) as the siphon is formed in (11) and discharges it to the drain The ejector 23 is operated by the discharge water pressure of the raw water in the sedimentation basin 1 between the suction pipe 21 and the discharge pipe 22 installed over the government of the siphon pipe 11 and the drainage pipe 3. The siphon forming means 20 forms a siphon in the siphon tube 11 by discharging the air filled in the curved pipe portion 11B of the siphon tube 11 to the outside with suction force generated in the ejector 23. Sludge automatic discharge device of the sedimentation basin characterized in that. According to claim 1, wherein the siphon pipe 11 of the sludge discharge means 10 is the lower end of the upflow pipe (11A) provided from the lower portion of the sludge hopper 2 to the water surface (HWL) of the sedimentation basin 1 and The sludge suction port 11A 'and the curved pipe part 11B are respectively formed in the upper end part, one end of the water sealing pipe 13 is connected to the lower end of the curved pipe part 11B, and the other end of the water sealing pipe 13 is Sludge automatic discharge device of the sedimentation basin by connecting the upper end of the vertical downflow pipe (11C) connected to the sump (3). The curved pipe portion (11B) is the curved portion of the upper portion of the inverted U-shaped tube including the top of the tube body, the sedimentation basin (1) is exposed to the upper surface of water, and connected to the water sealing tube (13). (11B) The sludge automatic discharge device of the sedimentation basin is provided with a reducer (13A) in the discharge end of the lower end is gradually reduced in the pipe diameter of the curved tube (11B) pipe. According to claim 1, The siphon forming means 20 is connected to the upper end of the suction pipe 21 for sucking the air filled in the curved pipe portion (11B) to the top of the curved pipe portion (11B) of the siphon pipe 11, The lower end portion of the suction pipe 21 is connected to the suction port 23a side of the ejector 23 installed in the lower portion of the sedimentation basin 1, and the discharge pipe connected to the drainer 3 on the discharge port side of the ejector 23. Automatic sludge discharge device of the sedimentation basin is connected to the upper end of the 22. 5. The ejector (23) according to claim 4, wherein the ejector (23) is connected to a lower end of a raw water supply pipe (24) for supplying raw water in the water of the sedimentation basin (1) to the pressure inlet side, and the raw water of the raw water supply pipe (23). The inlet port 24a is disposed above the water in the sedimentation basin 1 so that the raw water of the upper layer of the sedimentation basin 1 can be discharged through the nozzle 23b of the ejector 23 as the raw water inlet 24a is opened. Sludge drainage of sedimentation basin. The raw water inlet (24a) of the raw water supply pipe 24 is exposed to the upper portion of the water through the protective control 25 provided on the upper side of the sedimentation basin 1, the interior of the protective control 25 Sludge automatic discharge device of the sedimentation basin is provided with a solenoid valve 26 for opening and closing the inlet (24a) in the pipe of the raw water supply pipe (24) located in.