KR200199540Y1 - A removal apparatus of sludge mixed in sewage - Google Patents

Abstract

The present invention relates to a sludge removal apparatus mixed with waste water, while centrifugal force is generated during the passage through the nozzle of the first cell in the upper inlet chamber of the first separator into which the waste water is input from the reservoir, while vortexing the first separation pipe. Move down,

The sludge of microorganisms and suspended solids is separated by centrifugal force of the wastewater moving along the first separation pipe so that the diameter of the sludge is discharged through a free sludge outlet,

Waste water of the first separation pipe is moved upwardly and discharged through the discharge pipe and the discharge port to completely discharge the air contained in the reservoir through the air discharge port at the top,

In the water tank, the wastewater introduced by the pump through the input port of the second separator is centrifugal force generated while passing through the nozzles of the inclined protrusions of the second cell in the upper inlet chamber and vortexed along the inner circumferential surface of the second separator pipe. Move down,

By the large centrifugal force of the waste water moving downward along the inner circumferential surface of the second separation pipe to the sludge of microorganisms and suspended solids are discharged through the sludge outlet,

The waste water of the second separation pipe is moved upward while being rotated inside so that the waste water is discharged in the state of treated water through the discharge pipe and the discharge port. The installation area can be reduced and the installation area is small so that it can be installed in a limited space.

Description

A removal apparatus of sludge mixed in sewage

The present invention relates to a sludge removal apparatus mixed with waste water, and in particular, the flow of water flowing through the inflow pipe is converted from linear motion to rotational motion, which is generated during the high speed rotation of water mixed with algae and suspended matter inside the separation pipe. The centrifugal force separates solids such as algae and suspended solids from water as well as high concentrations of livestock wastewater from water by using centrifugal force, which enables pretreatment regardless of capacity by physical methods without using artificial tools. And it relates to a sludge removal apparatus mixed in the waste water to reduce the maintenance operation cost and to be installed in a small space limited to the small installation area.

The rapid development of industry these days has improved the standard of living, but our only environment is being destroyed by various wastes and wastewaters, and even threatening our health.

In addition, soil and rivers are contaminated with drinking water due to livestock waste, organic compound waste, and heavy chemicals.

Therefore, contaminants have been removed using solid-liquid separation techniques by physical, chemical and biological treatments.

However, in the wastewater purification method by the conventional solid-liquid separation technique as described above, there is a disadvantage in that many wastewaters cannot be purified quickly, as well as a costly maintenance problem, and thus cannot be widely used.

In addition, in order to purify the waste water in the state of containing solids as well as living organisms and microorganisms, more chemicals have to be added, and operating and maintenance costs are high.

Thus, the filtration method or the micro filter method was used to remove algae and fine suspended matter. However, due to the characteristics of the filter, it is impossible to use it continuously for a long time. As time passes, the processing efficiency decreases and the micro pores of the filter are blocked. There was a problem in that unnecessary time, manpower and money was wasted because back washing was required or the filter itself had to be replaced.

In addition, the filtration method or the filter method has a disadvantage in that it is difficult to treat a large amount of waste water because there is a limit to the capacity for treating waste water.

Accordingly, the present invention converts the flow of water flowing through the inlet pipe from the linear motion to the rotational motion so that the algae having a specific gravity compared to the water due to the centrifugal force generated during the high speed rotation of the water mixed with the algae and suspended matter inside the separation pipe By separating solids such as livestock and suspended solids as well as high concentration livestock wastewater from water, it is possible to pretreatment regardless of capacity by physical method without using artificial tools and to reduce the cost of chemical use and maintenance and operation. It is an object of the present invention to provide a sludge removal apparatus mixed with wastewater that can be installed in a limited small space.

In order to achieve the above object, the present invention allows waste water to be introduced through the input port of the first separator at a pressure of 2.0 to 4.0 Kg / cm ^{3 in} the reservoir,

The wastewater introduced into the upper inlet chamber of the first separator causes a large centrifugal force to be generated while passing through a plurality of nozzles formed obliquely to the first cell, and moves downward while vortexing to the right along the inner circumferential surface of the first separator tube.

By the centrifugal force of the waste water moving downward along the inner circumferential surface of the first separation pipe, sludge of microorganisms and suspended solids having a specific gravity that is heavier than water (about 20-50 ?? m) is separated, and the sludge has frictional force and gravity of the inner wall. By moving downward to adjust the diameter of the lower end is automatically discharged to the outside by the state of being replaced with the outside air in the free sludge outlet,

The waste water moved downward along the inner circumferential surface of the first separation pipe is moved upward while continuing to rotate rightward from the inside to be discharged to the outside through the discharge pipe and the discharge port,

The waste water discharged from the first separator allows the air contained in the waste water to be completely discharged through the air outlet at the top while temporarily staying in the reservoir,

Waste water forcibly transferred to the high pressure by the pump in the water reservoir to be introduced through the input port of the second separator,

The wastewater introduced into the upper inlet chamber of the second separator is allowed to vortex to the right along the inner circumferential surface of the second separator so that a greater centrifugal force is generated while passing through the nozzles of the inclined protrusions formed on the outer surface of the second cell. To move down,

Due to the large centrifugal force of the wastewater moving downward along the inner circumferential surface of the second separation pipe, the sludge of microorganisms and suspended solids having a specific gravity that is heavier than water (about 20 ?? m) is separated, and the sludge is subjected to friction and gravity of the inner wall. By moving downward to adjust the diameter of the lower end is automatically discharged to the outside by the state of being replaced with the outside air in the free sludge outlet,

The waste water moved downward along the inner circumferential surface of the second separation pipe moves upward while continuously rotating to the right from the inside to be discharged in the state of the treated water through the discharge pipe and the discharge port. It is possible to pretreatment regardless of capacity, and to reduce the cost of chemical use and maintenance, and to install in a small space with a small installation area.

1 is a plan view showing the overall configuration of the present invention.

Figure 2 is a side cross-sectional view showing the overall configuration of the present invention.

3 is a cross-sectional view showing the configuration of a first separator of the present invention.

Figure 4 is a plan view showing the configuration of a first cell of the present invention.

5 is a cross-sectional view showing the configuration of a first cell of the present invention.

Figure 6 is a cross-sectional view showing the configuration of a second separator of the present invention.

7 is a plan sectional view showing a configuration of a second cell of the present invention.

* Description of Signs of Main Parts of Drawings *

1, 17: separator 3, 19: inlet chamber

4, 20: cell 5, 22: nozzle

6, 23: separation pipe housing 14: reservoir

17: second separator 25: second separator

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

1 to 7 show the overall configuration of the present invention,

In a reservoir not shown in the drawing, waste water is introduced through the input port 2 of the first separator 1 at a pressure of 2.0 to 4.0 Kg / cm ³ by a pump,

The waste water introduced into the upper inlet chamber 3 of the first separator 1 causes a large centrifugal force to be generated while passing through the nozzles 5 formed inclined in the first cell 4 so that the separation pipe housing 6 To move downward while vortexing to the right along the inner circumferential surface of the first separation pipe 8 detachably coupled via an O-ring 7 inside the

The nozzle 5 of the first cell 4 is formed in the inlet (9) narrowly circumferentially to prevent the inflow of large sludge, the nozzle (5) formed inclined waste water that is not restricted inlet even if the inlet is blocked. Have centrifugal force while passing through,

By the centrifugal force of the waste water moving downward along the inner circumferential surface of the first separation pipe 8, sludge of microorganisms and suspended solids having a specific gravity that is heavier than water (about 20-50 ?? m) is separated and the sludge is separated from the inner wall. It is automatically discharged to the outside by a state in which the sludge outlet 10 freely adjusts the diameter by screwing or loosening the adjusting part 11 of the lower part by moving downward by friction and gravity, and being replaced with external air. Make sure,

The waste water moved downward along the inner circumferential surface of the first separation pipe 8 is moved upward while continuously rotating to the right from the inside to be discharged to the outside through the discharge pipe 12 and the discharge port 13,

The waste water discharged from the first separator 1 allows the air contained in the waste water to be completely discharged through the air outlet 15 at the upper end while temporarily staying in the reservoir 14.

Waste water forcibly transferred to the high pressure by the pump 16 in the reservoir 14 to be introduced through the input port 18 of the second separator 17,

Wastewater flowing into the upper inlet chamber 19 of the second separator 17 passes through the nozzles 22 of the inclined protrusions 21 formed on the outer surface of the second cell 20. It is generated so as to move downward while vortexing to the right along the inner circumferential surface of the second separation pipe 25 detachably coupled through the O-ring 24 in the interior of the separation pipe housing 23,

The slanted protrusions 21 of the second cell 20 are protruded circumferentially for some time, such as polygons, so that the inflow and speed of the waste water are maximized so that the waste water introduced through the nozzle 22 is separated into the second separation pipe. Have a large centrifugal force at 25,

Due to the large centrifugal force of the waste water moving downward along the inner circumferential surface of the second separation pipe 25, the sludge of the microorganism and the suspended solids having a specific gravity that is heavier than the water (about 20 ?? m) is separated and the sludge has frictional force with the inner wall. And downwardly moved by gravity to be automatically discharged to the outside by being replaced with external air in the sludge outlet 26 free of adjustment of the diameter by tightening or loosening the adjusting part 27 at the lower end. and,

The waste water moved downward along the inner circumferential surface of the second separation pipe 25 is configured to be discharged in the state of treated water through the discharge pipe 28 and the discharge port 29 while moving upward while continuously rotating to the right inside.

The sludge removal apparatus mixed with the waste water of the present invention configured as described above has the waste water running at a pressure of 2.0 to 4.0 Kg / cm ³ by operating the pump in the reservoir, and the inside of the first separator 1 through the input port 2 Inflow to the inlet chamber (3) formed in.

The wastewater introduced into the upper inlet chamber 3 of the first separator 1 has a large centrifugal force while passing through the nozzles 5 formed inclined in the first cell 4, and the separation tube housing 6. It is moved downward while vortexing to the right along the inner circumferential surface of the first separation tube 8 detachably coupled via the O-ring 7 inside the.

The nozzle 5 of the first cell 4 forms an inlet 9 narrowly circumferentially to prevent the inflow of large sludge so that the inflow of wastewater is limited even if any part of the inlet 9 is blocked by the sludge. Along the inclined path of the nozzle (5) that does not flow at a large pressure has a centrifugal force.

Sludge of microorganisms and suspended solids having a specific gravity that is heavier than water (about 20-50 ° m) by centrifugal force of the wastewater moving downward along the inner circumferential surface of the first separation pipe 8 is downward by frictional force and gravity of the inner wall. It is moved and collected at the center of the floor and separated.

And the sludge is discharged to the outside automatically by the state of being replaced with the outside air in the sludge outlet 10 is free to adjust the diameter by tightening or loosening the adjusting portion 11 of the lower end of the screw to be treated It becomes possible.

The waste water moved downward along the inner circumferential surface of the first separation pipe 8 continues to rotate to the right in the interior of the first separation pipe 8, and then moves upward again in contact with the bottom surface so that the sludge having a large specific gravity is discharged. It is discharged to the outside through the 12 and the discharge port (13).

The waste water discharged through the discharge port 13 in the first separator 1 is supplied to the reservoir 14 so that the amount of waste water introduced during the temporary stay is controlled and included in the waste water through the upper air outlet 15. The exhausted air completely.

Waste water from which air is removed from the reservoir 14 is introduced through the input port 18 of the second separator 17 while being forcedly transferred to the high pressure by the pump 16.

The wastewater introduced into the upper inlet chamber 19 of the second separator 17 is generated so that centrifugal force is generated while passing through the nozzles 22 of the inclined protrusions 21 formed on the outer surface of the second cell 20. By vortexing to the right along the inner circumferential surface of the second separation pipe 25 detachably coupled via the O-ring 24 in the interior of the separation pipe housing 23 is moved downward.

Here, the inclined protrusions 21 of the second cell 20 are formed so as to protrude to the circumference for some time, such as polygons, and the nozzle 22 is formed to maximize the inflow amount and velocity of the waste water. Waste water flowing through the second separation tube 25 has a large centrifugal force.

The sludge of microorganisms and suspended solids having a specific gravity that is heavier than water (about 20 ?? m) by the greater centrifugal force of the waste water moving downward along the inner circumferential surface of the second separation pipe 25 is downward by the frictional force and the gravity of the inner wall. The sludge is collected at the center of the bottom surface and is replaced with external air at the sludge outlet 26 free of adjustment of diameter by tightening or releasing the lower adjusting part 27 by screwing. It can be discharged to the outside automatically.

The waste water moved downward along the inner circumferential surface of the second separation pipe 25 is moved upward while continuously rotating to the right from the inside while in contact with the bottom surface, and thus the treated water is discharged through the discharge pipe 28 and the discharge port 29. Is discharged.

Therefore, in the sludge removal apparatus mixed with the waste water according to the present invention, centrifugal force is generated while passing through the nozzle of the first cell in the inlet chamber of the first separator into which the waste water is input, so that it moves downward while vortexing the first separation pipe. ,

The sludge separated by the centrifugal force of the waste water moving the first separation pipe is discharged through the sludge discharge port and at the same time the waste water is moved upwardly and discharged through the discharge pipe and the discharge port so that the air is discharged through the upper air discharge port from the reservoir. ,

Waste water flowing through the input port of the second separator by the pump in the water reservoir is moved downward while vortexing along the inner circumferential surface of the second separator by generating centrifugal force while passing through the nozzles of the inclined protrusions of the second cell in the upper inlet chamber. Let's

The sludge separated by the large centrifugal force of the waste water moving along the inner circumferential surface of the second separation pipe is discharged through the sludge discharge port, and the waste water is rotated in the inside to be discharged in the state of treated water through the discharge pipe and the discharge hole. By doing this, pretreatment can be performed regardless of the capacity by physical method, and the cost of using and maintaining the chemical can be reduced, and the installation area can be installed in a limited space with a small space.

Claims (3)

In the reservoir tank is introduced into the upper inlet chamber (3) through the inlet (2) of the first separator (1) at a pressure of 2.0 ~ 4.0Kg / cm ³ , The wastewater introduced into the inflow chamber 3 can be separated through an O-ring 7 inside the separation tube housing 6 while passing through the nozzle 5 formed inclined in the first cell 4. To move downward while vortexing along the inner circumferential surface of the first separation pipe 8 coupled to each other, The nozzle 5 of the first cell 4 is formed in the inlet (9) narrowly circumferentially to prevent the inflow of large sludge, the nozzle (5) formed inclined waste water that is not restricted inlet even if the inlet is blocked. Have centrifugal force while passing through, Waste water of the first separation pipe (8) is to be discharged through the sludge discharge port 10, the sludge separated by the centrifugal force free adjustment of the diameter by the adjusting unit (11), Waste water flowing upward in the first separation pipe 8 allows the air contained in the reservoir 14 through the air discharge port 15 of the upper end through the discharge pipe 12 and the discharge port 13 to be discharged. Waste water forcibly transferred to the high pressure by the pump 16 in the reservoir 14 to be introduced through the input port 18 of the second separator 17, The wastewater introduced into the upper inlet chamber 19 of the second separator 17 passes through the nozzle 22 formed in the inclined protrusion 21 of the second cell 20 to form the interior of the separation tube housing 23. Vortex and move along the second separation pipe 25 coupled via the O-ring 24 to the The sludge separated from the second separation pipe 25 is discharged to the outside through the sludge discharge port 26 whose diameter is adjusted by the adjustment unit 27 of the lower end, The sludge removal apparatus mixed with the waste water, characterized in that configured to discharge the treated water through the discharge pipe 28 and the discharge port 29 by moving upward in the second separation pipe (25). The nozzle according to claim 1, wherein the wastewater introduced into the inlet chamber (3) of the first separator (1) forms a narrow inlet (9) narrowly around the circumference of the first cell (4). Microorganisms and suspended solids having a specific gravity that is heavier than water (about 20-50 ° m) by centrifugal force of the wastewater moving downward along the inner circumferential surface of the first separation pipe 8 so as to have a centrifugal force while passing through (5). Sludge removal device mixed with waste water that allows the sludge to be separated. The method of claim 1, wherein the nozzle 22 is formed in the inclined protrusion 21 formed so as to protrude circumferentially like the polygon in the second cell 20, so that the inflow and the velocity of the waste water are maximized. Waste water has a large centrifugal force in the second separation pipe 25, Sludge removal apparatus mixed in the waste water to separate the sludge of the microorganisms and suspended solids having a specific gravity that is heavier than the water (about 20 ?? m) by the large centrifugal force of the waste water moving downward along the inner peripheral surface of the second separation pipe 25 .