KR0133350Y1 - Spray apparatus of sludge hopper for sedimentation basin - Google Patents

Abstract

The present invention relates to a pressure water injector of a sludge hopper for a chemical sedimentation basin, the sludge collected in the sludge hopper is not completely discharged to the sludge discharge port, it is accumulated in the sludge hopper to reduce the use efficiency and sedimentation efficiency of the sludge hopper It is to solve the problem.

The present invention is supported by a pump support installed on one side wall of the chemical sedimentation basin, an underwater pump installed to be located in the water below the ice line, a pressure water supply pipe for supplying the pressure water pumped from the underwater pump, and the pressure water supply pipe And a plurality of injection nozzles connected to the lower end and installed in the sludge hopper and installed in the sludge hopper, and a plurality of injection nozzles coupled to the pressure water distribution pipe to inject the pressure water into the sludge hopper. The pressure water injection device of the present invention can increase the utilization efficiency and sludge efficiency of sludge hopper by smoothly discharging the sludge collected in the sludge hopper to the outlet, reducing the total loss quantity, preventing overload of the wastewater treatment facility, and high quality water quality. It can reduce the odor during management and cleaning and increase the reuse rate of the discharged water. Especially, since it supplies pressure water by using an underwater pump, it does not freeze even in winter, and the pump lifting device facilitates the maintenance of the underwater pump. There is an advantage to this.

Description

Pressure water injection device of sludge hopper for chemical sedimentation basin

1 to 4 is a diagram of the chemical sedimentation basin showing the configuration and installation state of the pressure water injection device according to the present invention,

1 is the overall flat surface of the drug settler.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an enlarged view of part C of FIG. 1 showing an enlarged sludge hopper.

4 is an enlarged cross-sectional view taken along the line B-B in FIG.

* Explanation of symbols for main parts of the drawings

10: chemical sedimentation basin 40: sediment sludge collection means

44: sludge hopper 50: sludge discharge means

60: pressure water injection means 61: pump support

62: submersible pump 63: pressure water supply pipe

64: pressure water distribution pipe 65: injection nozzle

66: pump lifting device

The present invention relates to a pressure water injector installed in the sludge hopper of the chemical sedimentation basin, in particular, it is possible to smoothly discharge the sludge collected in the sludge hopper of the chemical sedimentation basin by the pressure water injection means, the pressure water to the pressure water injection means The present invention relates to a pressure water injector for a sludge hopper for chemical sedimentation basin, which is installed at a lower part of an ice line in the sedimentation basin to prevent freezing and breakage in winter.

Generally, the chemical settling basin installed in the water treatment plant is installed to reduce the load on the rapid filter paper, which is a subsequent process by removing most of the large and heavily grown floc by the sedimentation action through the steps of chemical injection, mixing and floc formation. .

The chemical sedimentation basin has three functions of sedimentation, buffering, and sludge discharge. The sedimentation function is the most effective sedimentation method for the incoming turbid water. Equipment should be installed.

If the sludge is not discharged smoothly through the sludge discharge facility, it is necessary to stop the use of the chemical sedimentation basin. Therefore, the sludge discharge facility should be able to collect and transport the sludge sufficiently to be transported to the sludge hopper. In addition, the sludge collected in the sludge hopper should be easily discharged by the discharge means.

In the conventional chemical sedimentation basin, the sludge settled at the bottom of the sedimentation basin by the sludge collector is collected by the sludge hopper and discharged through the sludge outlet installed at the lower side of the sludge hopper. As such, the sludge collected in the sludge collection hopper is discharged together with water in a state in which the water content is about 98%, so that the sludge in the sludge hopper is not completely discharged.

In particular, sludge is discharged relatively smoothly on the center of the hopper centered on the sludge discharge port, but sludge accumulated in the inner wall of the sludge hopper is not discharged properly, and therefore, the sludge water content is low at the initial stage of discharge of the sludge. Although it is discharged smoothly from the sludge, the water content of the sludge is gradually increased, and the sediment water rather than the sludge is discharged later.

As a result, only a part of the sludge collected in the sludge hopper is discharged, and the sludge accumulated on the wall side of the sludge hopper remains in the sludge hopper, whereby the sludge collected by the sludge collector is not collected by the sludge hopper and the sedimentation inflow If this phenomenon is repeated, the sludge that is continuously sedimented and collected may not be discharged, and thus, the sedimentation basin may not fully exhibit its original function.

That is, according to the conventional sludge discharge method, the utilization ratio of the sludge hopper is lowered, not only the sludge discharge is not easily made, but also there is a problem that the maintenance of the entire sedimentation basin becomes difficult.

Therefore, the present invention has been devised to solve the conventional problems as described above, the main purpose of the present invention is to allow the sludge collected in the sludge hopper to be completely discharged by the pressure water injection means, supplying the pressure water It is to provide a pressure water injection device of the sludge hopper for the chemical sedimentation basin is installed to be located below the freezing line of the chemical sedimentation basin.

The present invention for achieving this purpose is to support the pump support formed on one side of the rectifying wall of the inlet of the chemical sedimentation basin is an underwater pump installed to be located below the freezing line of the sedimentation basin, and the pressure water pumped from the submersible pump A pressure water supply pipe for supplying, a pressure water distribution pipe connected to a lower end of the pressure water supply pipe, and installed to be located inside the sludge hopper; It comprises a plurality of injection nozzles to be sprayed on.

The submersible pump is installed to facilitate maintenance of the submersible pump by elevating the chemical sedimentation basin outside by the pump elevating device.

The pressure distribution pipe is embedded in the wall of the sludge hopper so that only the tip of each injection nozzle protrudes out of the wall, so that the sludge is discharged and flowed in smoothly.

The present invention can completely increase the efficiency of use of the sludge hopper and the settling efficiency of the sedimentation basin by completely discharging the sludge collected in the sludge hopper, reducing the amount of total discharge loss, preventing overload of the wastewater treatment facility, quality water quality management, and cleaning It can reduce the odor and increase the reuse rate of effluent.

In particular, by supplying the pressure water using the submersible pump does not freeze even in winter, there is an advantage that can facilitate the maintenance of the submersible pump by the pump lift device.

According to the embodiment shown in the accompanying drawings sludge discharge apparatus of the present invention as described above in detail as follows.

FIG. 1 is a plan view of a chemical sedimentation basin in which the device of the present invention is installed, FIG. 2 is a sectional view taken along line AA of FIG. 1, and FIG. 3 is an enlarged plan view of a sludge hopper section, and FIG. 4 is a view taken along line BB of FIG. .

Referring to the drawings, the water flowing into the sediment water inlet 20 is in principle injected into the raw water by rapid mixing, then through the step of floc formation in the flocculation paper 21 to the chemical sedimentation basin (10) Inflow.

The inflow path of the sediment water is introduced into the chemical sedimentation basin 10 through the flocculation basin inlet gate 24, the flocculation basin inflow rectifying wall 23, the flocculation basin outlet 22, and the inlet of the sedimentation basin 11. .

The chemical precipitation basin 10 has a function of removing most of the large and heavily grown floc by sedimentation separation action.

The chemical sedimentation basin 10 sedimented and separated most effectively in the incoming turbidity of the raw water sinks to the bottom 12 of the chemical sedimentation basin 10, and collects the clear and clean supernatant of the upper layer and supplies it to the rapid filter which is a subsequent process.

Outflow path of the precipitated supernatant water is supplied to the rapid filter through the sediment water outlet means 30 installed on the upper side of the sedimentation basin, that is, the supernatant effluent wear 31, the collecting tank 32 and the sediment water outlet 33.

Although there are various mechanical collection methods for collecting the sludge settled in the chemical sedimentation basin 10, the sludge collection means 40 by the rope type sludge removal apparatus will be described as an example.

In the chemical sedimentation basin 10, the chemical sedimentation basin 10 is bisected and the two mobile trolleys 46 are installed at positions facing each other so that one mobile trolley 46 moves toward the sludge hopper 44 to collect the sludge. The counterpart moving trolley 46 moves backward to collect the next sludge.

At this time, the mobile cart 46 passes through the sludge hopper 44 from the initial position S1 adjacent to the outlet side wall 16 through the position S2 during operation to collect the sludge deposited on the bottom 12 of the sedimentation basin 10. When transported to the) side, the scraper 47 is stopped while lying down at the final position (S3) immediately before the sludge hopper 44, the collected sludge is introduced into the sludge hopper 44.

Subsequently, as the sludge remover driving unit 45 is rotated by the control of the sludge remover driving unit, the moving cart 46 is moved in the reverse direction to drive the sludge on the opposite side of the divided chemical sedimentation basin 10 again. This operation is repeated.

The sludge collected in the sludge hopper 44 by the settling sludge collecting means 40 is discharged by the sludge discharge means 50, the sludge of the sludge hopper 44 moves the sludge collecting means 40 As the truck 46 arrives, the discharge valve 53 in the lower portion of the pipe chamber 55 is opened and flows out to the sludge discharge port 54 through the sludge discharge port 51, the discharge pipe 52, and the discharge valve 53. .

The chemical sedimentation basin configured as described above is provided with a pressure water injection means 60 of the present invention for smoothly discharging the sludge by injecting pressure water into the sludge hopper 44.

The pressure water injection means 50 of the present invention is provided with a pump support 61 on one side of the inlet rectification wall 11, the submersible pump 62 is installed on the pump support 61, The submersible pump 62 installed as described above is configured to be elevated as needed by the pump elevating device 66 installed on the upper portion of the sedimentation basin 10.

The submersible pump 62 has a pressure water supply pipe 63 extending downward, and a pressure water distribution pipe 64 is connected to a lower end of the pressure water supply pipe 63, and the pressure water The distribution pipe 54 is provided with a plurality of injection nozzles 65 at predetermined intervals.

The pressure water distribution pipe 54 is installed in a state in which one side is inserted into and fixed in the support groove groove 44a formed in the wall surface of the sludge hopper 44 or embedded in the wall of the sludge hopper 44. A tip portion of each injection nozzle 65 coupled to 64 is exposed to the outside of the wall so that the pressure water injected from each injection nozzle 65 is injected downward along the wall surface of the sludge hopper 44. Consists of.

The submersible pump 62 is installed in the lower portion of the freezing line 14 lower than the high water level (HWL) of the chemical sedimentation basin 10 so as not to freeze or freeze in winter.

The pressure water injection means 60 configured as described above is operated under the control of the control unit, and the mobile truck 46 installed on the bottom surface of the sedimentation basin 10 arrives at the front of the sludge hopper 44. After the discharge valve 53 is opened, the submersible pump 52 is operated, and the pressure water pumped by the submersible pump 62 is supplied to the pressure water distribution pipe 64 through the pressure water supply pipe 63. Likewise, the pressure water distributed from the pressure water distribution pipe 64 flows and mixes the sludge collected in the sludge hopper 44 while being injected into the sludge hopper 44 through the respective injection nozzles 65, thereby allowing the sludge to flow. It is to be able to completely discharge all the sludge accumulated in the hopper 44 and the wall surface, it is possible to significantly increase the discharge efficiency of the sludge.

The submersible pump 62 is stopped just before the discharge valve 53 is closed, and the discharge valve 53 is closed after the submersible pump 62 is stopped.

As described above, the pressure water injector of the sludge hopper for chemical sedimentation basin of the present invention is capable of smoothly and completely discharging the sludge collected in the sludge hopper 44 by the pressure water injection means 60, so that the sludge hopper The utilization rate of the 44 can be greatly increased, so that the sludge introduced again can be effectively collected in the sludge hopper 44.

Moreover, it is effective to prevent overload of the wastewater treatment facility by equalizing the water content of the sludge and by reducing the amount of total discharge water discharged together with the sludge.

In addition, conventionally, the sludge collected in the sludge hopper 44 is not discharged for a long time, it is oxidized to adversely affect the water quality, pollution due to odor generated during regular cleaning, it is impossible to reuse the discharged water, but it has the effect of eliminating it. .

In particular, the pressure water injection device of the sludge hopper for drug settling of the present invention uses a pressure water supply pump for sludge dispersion of the sludge hopper 44 as an underwater pump 62 installed below the freezing line, Unnecessary, there is no fear of freezing or breaking even in winter, the pump lifting device 65 that can be lifted to the outside for regular maintenance and maintenance of the submersible pump 62 is installed in the inlet of the chemical settling basin 10 is installed It is easy to manage. In addition, since the pressure water distribution pipe 54 installed in the sludge hopper 44 is embedded in the wall of the sludge hopper 44, there is no problem in the collection and discharge of the sludge, and the pressure water injection means 60 is sludged. In connection with the discharge valve 53 installed in the discharge pipe there is an advantage that can be easily automated.

Claims (3)

An underwater pump, which is supported by a pump support provided on one inner wall of the chemical sedimentation basin and is positioned below the freezing line of the sedimentation basin, a pressure water supply pipe for supplying the pressure water pumped from the underwater pump, and the pressure water supply pipe A pressure water distribution pipe connected to the lower end of the sludge hopper and disposed along the inner circumferential wall, and a plurality of injection nozzles coupled to the pressure water distribution pipe to inject the pressure water into the sludge hopper. Pressure water injection device of sludge hopper for chemical sedimentation basin. The pressure water injection device of the sludge hopper for chemical sedimentation basin of claim 1, wherein the submersible pump is provided with a pump elevating device for elevating the submersible pump to the outside of the chemical sedimentation basin. The pressure water injector of claim 1, wherein the pressure water distribution pipe is embedded in the wall of the sludge hopper so that only the tip of each injection nozzle protrudes out of the wall.