KR101431049B1 - sedimentation basin manifold type sludge collecting and discharging apparatus - Google Patents

Abstract

Disclosed is a sedimentation basin manifold type sludge collection and discharge apparatus which collects sludge having sunken to the bottom of a sedimentation basin by gravitational force into a sedimentation basin hopper and discharges the sludge collected in the hopper. The apparatus according to an embodiment of the present invention includes: a manifold type suction pipe prepared to communicate with sludge discharge piping and rotatably mounted by two brackets attached to the left and right sides of a lower end portion of a sedimentation basin; a plurality of suction holes formed on the outer surface of the suction pipe along the length direction thereof and drawing in the sunken sludge; a blade provided on the outer surface of the suction pipe and breaking the sludge stuck to the inside of the hopper; a screw provided on the outer surface of the suction pipe and guiding the broken sludge to the suction holes; and a driving unit provided in an upper portion of the sediment basin to drive the rotation of the manifold type suction pipe through a driving chain.

Description

[0001] The present invention relates to a sedimentation basin manifold type sludge collecting and discharging apparatus,

The present invention relates to a sedimentation manifold-type sludge collecting and discharging apparatus, and more particularly, to a sedimentation manifold-type sludge collecting and discharging apparatus capable of effectively discharging sludge collected in a sedimentation hopper Sludge collecting and discharging device.

Generally, the pollutants contained in the raw water are separated and purified by the processes such as sedimentation, aeration, filtration, and disinfection.

In the sedimentation process in which the suspension is separated from the clarifying liquid by the sedimentation separation action during the purification process, the sludge is deposited on the bottom of the sedimentation basin by gravity, and the sedimented sludge is moved into the sedimentation hopper Collect. The collected sludge is discharged at regular intervals or continuously through the sludge outlet provided at the lower part of the hopper, usually at a water content of 99.0% to 99.5%.

However, the sludge collected in the hopper is smoothly discharged from the center of the hopper around the discharge port, but the sludge adhered to the inner wall of the hopper is not properly discharged due to the rabbit hole phenomenon. As a result, at the bottom and the slope of the hopper, the sludge is consolidated and can not be discharged at all, and the sludge accumulates outside the hopper due to the decrease in the overall volume of the hopper.

In addition, sludge that has not been discharged to the outside is floated as a corruption phenomenon, which adversely affects the filtration process as a subsequent process of the treatment water. Further, frequent sludge discharge due to decrease of the hopper volume leads to waste of sedimentation water and low concentration of sedimentation sludge, And thus the original function of the sedimentation basin was impaired. In particular, this problem may become more serious depending on the inclination angle and the lateral length of the hopper.

Document 1: Korean Patent No. 10-1214987 (December 17, 2012) Document 2: Korean Registration Practice No. 20-0264190 (Jan. 30, 2002) Conventionally, there has been proposed a method of using washing water or mounting a movable panel on the inner surface of the hopper and discharging it by repeated vibration.

The sedimentation manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention easily sucks and discharges high-concentration sludge settling over the entire section of the hopper.

According to an aspect of the present invention, there is provided an apparatus for collecting sludge, which is submerged in a settling hopper by gravity, at a bottom of a settling basin and discharging the collected sludge into a hopper, A manifold type suction pipe rotatably fixed by two brackets mounted on the left and right sides of the lower portion, a plurality of suction holes provided along the longitudinal direction on the outer peripheral surface of the suction pipe to suck the precipitated sludge, A sedimentation manifold type unit including a blade for crushing the fixed sludge, a screw provided on the outer circumferential surface of the suction pipe to guide the crushed sludge to the suction hole, and a drive unit provided on the sedimentation unit for rotationally driving the manifold- A sludge collecting and discharging device can be provided.

The manifold-type suction pipe includes a first suction pipe and a second suction pipe disposed on the left and right sides of the sludge discharge pipe, and the plurality of suction holes provided in the first suction pipe and the second suction pipe are disposed in directions opposite to each other .

The manifold-type suction pipe includes a discharge connection pipe connected to the sludge discharge pipe, and the manifold-type suction pipe is connected to the sludge discharge pipe through a connection hole And the connection hole may be sequentially connected to the sludge discharge pipe when the manifold type suction pipe rotates.

In addition, the screw of the manifold-type suction pipe may be provided between the plurality of suction holes.

Further, the blade of the manifold type suction pipe may be provided on the opposite side of the suction hole.

The discharge connection port is connected to a manifold type suction pipe through a cylindrical metal bearing so as to be rotatable with a manifold type suction pipe inserted therein. The connection hole is formed by opening a metal bearing, And can communicate with a discharge hole provided in the housing.

The driving unit includes a motor provided on the sedimentation tank, a first sprocket provided on the shaft of the motor, a second sprocket provided on one side of the manifold type suction pipe seated on the bottom of the settling hopper, And a drive chain connecting sprockets.

The sludge collecting and discharging apparatus according to an embodiment of the present invention is a sludge collecting and discharging apparatus for sludge collecting and purging type which breaks sludge which is fixed on the inner wall of a sedimentation tank by rotating a plow- So that the high-concentration sludge can be effectively sucked and discharged to the outside in the whole section under the hopper.

FIG. 1 and FIG. 2 are views schematically showing a settler provided with a settling manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention.
3 and 4 are views showing a manifold-type suction pipe of a sedimentation manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention.
5 is a view for explaining the operation of the first suction pipe of the sedimentation manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention.
6 is a view for explaining the operation of the second suction pipe of the sedimentation manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIGS. 1 and 2 are longitudinal sectional views schematically showing a settling basin provided with a settling manifold-type sludge collecting and discharging apparatus according to an embodiment of the present invention, and FIGS. 3 and 4 are cross-sectional views thereof.

Referring to the drawings, a sedimentation basin 100 in which raw water is introduced into a water treatment facility to sediment and separate sludge S is generally provided with a collection unit 110 for collecting sedimented sludge S, And a discharge unit 120 for discharging the sludge to the outside of the sedimentation basin through the discharge pipe 104 located in the lower part of the hopper intermittently or continuously.

The collecting unit 110 may employ an underwater-type or chain-flight type collecting device for collecting the settled sludge toward the hopper 102 while moving on the settler bottom. Since these collecting apparatuses are currently used in the sedimentation basin, their detailed description is omitted. The scheme shown in the figure is a submerged equation.

The discharge unit 120 includes a manifold type suction pipe 121 provided in the hopper 102 to communicate with the sludge discharge pipe 104 and a driving unit 130 provided on the sedimentation unit for driving the suction pipe 121 do.

The manifold type suction pipe 121 is cylindrical in shape and has both ends rotatably fixed to a bracket 106 provided at left and right sides of the lower end of the sedimentation hopper.

3 and 4, the manifold-type suction pipe 121 includes a first suction pipe 121a and a second suction pipe 121b which are disposed on the left and right sides of the sludge discharge pipe 104. As shown in FIG. The first suction pipe 121a and the second suction pipe 121b may be separated from each other or may be integrally formed.

A plurality of suction holes 122 for sucking sedimented sludge along the longitudinal direction are provided on the outer circumferential surface of the manifold suction pipe 121. The suction holes 122 are spaced at appropriate intervals throughout the hopper.

The suction hole 122 provided in the first suction pipe 121a and the suction hole 122 provided in the second suction pipe 121b are provided in the directions opposite to each other. For example, if the suction hole 122 of the first suction pipe 121a is disposed on the 0 degree with respect to the sludge discharge pipe 104, the suction hole 122 of the second suction pipe 121b is arranged with a phase difference of 180 degrees do. The reason why the first suction pipe 121a and the suction hole 122 of the second suction pipe 121b are disposed symmetrically with each other is that the left and right sides of the suction pipe are separated and discharged into the hopper 102. When the concentrated sludge is discharged, Thereby effectively discharging high-concentration sludge through the sludge discharge pipe 104 by preventing water suction and efficiently sucking the concentrated sludge at the bottom of the hopper 102. If the suction holes and the connection holes of the first and second suction pipes are installed in the same direction, drifting occurs because the suction holes 121 and the suction holes of the suction pipes 121 and the suction holes of the first and second suction pipes are installed in the same direction. The sludge discharge pump (not shown) or the discharge valve (not shown) provided at one side of the discharge pipe 104 must be operated and stopped by the time difference between the first and second suction pipes. Bring shortening.

Blades 123 are provided on the opposite sides of the suction holes 122 of the first suction pipe 121a and the second suction pipe 121b for crushing the sludge adhered to the inside of the hopper. The blade 123 is sharpened like a plow and is provided in a fork shape at intervals so as to crush the sludge fixed to the inner wall of the hopper.

On the outer circumferential surfaces of the first suction pipe 121a and the second suction pipe 121b, a screw 124 is provided in a wave (diagonal) shape to facilitate sludge collection. The screw 124 is alternately disposed with the suction hole 122 to allow the sludge that has been broken by the suction hole at the adjacent position to be introduced.

The manifold suction pipe 121 is connected to the discharge pipe 104 so as to be rotated when the driving unit 130 is operated. For example, the manifold-type suction pipe 121 includes a discharge connection 125 that is connected to the sludge discharge pipe 104 at the center as shown enlarged in FIGS.

The manifold suction pipe 121 is connected to the metal bearing 126 on both sides of the straight line, and the discharge connection pipe 125 is formed in a T-shaped housing. The discharge pipe 104 is connected to the center end, Respectively. In this embodiment, one end of the manifold-type suction pipe is referred to as a first suction pipe 121a and the other end thereof is referred to as a second suction pipe 121b. However, the first and second suction pipes may be integrally formed have.

The manifold type suction pipe 121 is connected to the discharge pipe 104 so that the first suction pipe 121a and the second suction pipe 121b can be sequentially connected to the discharge pipe 104 during operation of the driving unit 130. In addition, And a connector 128 including connection holes 128a and 128b provided in the inner space of the suction pipe separated by the partition walls 127. The connection holes 128a and 128b are formed in the connector 128 are provided in the same direction as the suction holes 122 and are provided in the housing of the discharge pipe and the metal bearing 126 so as to be sequentially connected to the sludge discharge pipe 104 when the manifold- As shown in FIG. The suction operation of the first and second suction pipes 121a and 121b will be described later.

On the other hand, the manifold suction pipe 121 discharges the collected sludge to the outside through the discharge pipe 104 while being rotated by the driving unit 130 provided on the sedimentation unit.

1 and 2, the driving unit 130 includes a motor 131 provided on the sedimentation tank, a first sprocket 132 provided on the motor shaft, a manifold 132 mounted on the bottom of the sedimentation hopper, A second sprocket 133 provided at one side of the folded suction pipe 121 and a driving chain 134 connecting the first sprocket 132 and the second sprocket 133 to each other.

Hereinafter, the operation of the sedimentation manifold-type sludge collecting and discharging apparatus will be described.

The sludge collecting unit 110 operates to maximize the capacity of the sludge which is kept in the vertical state and pushes out the sludge to the hopper before the sludge accumulated in the settling hopper is discharged to the outside, Lt; / RTI > Also, when the sludge withdrawal is completed, the high concentration sludge is collected by the hopper while being automatically operated backward.

The sludge discharging unit 120 operates when the sludge collecting unit 110 stops to discharge the collected sludge to the hopper. That is, when the motor of the driving unit 130 rotates after the stop of the collecting unit, the manifold-shaped suction pipe 121 of the sludge discharging unit 120 rotates by the driving force transmitted through the first and second sprockets 132 and 133.

The manifold type suction pipe 121 has a first suction pipe 121a and a second suction pipe 121b sequentially disposed around the discharge pipe 104 at the time of rotational movement of the suction pipe due to the diagonal partition wall 127 provided at the center of the inside thereof. .

3 and 5, when the suction hole 122 of the second suction pipe 121b is positioned on the upper side of the sedimentation basin, the sludge discharge is generated when the suction hole 122 is located at the lower side of the sedimentation tank, 4 and 6, when the suction hole 122 of the second suction pipe 121b is located on the lower side of the sedimentation tank, the sludge is sucked in and the first The sludge is not sucked through the suction pipe 121a. The sludge introduced into the discharge port 125 through the suction hole 122 is discharged only when the discharge hole 129 and the connection holes 128a and 128b are opposed to each other to communicate with each other (the suction hole is located in the lower direction of the hopper) (104). ≪ / RTI >

Since the manifold type suction pipe 121 according to the present embodiment operates in a separated manner, the operation cycle is short, and the sludge located in the lower part of the hopper is moved to the lower side of the sedimentation unit It is possible to obtain a high concentration of sludge discharge concentration. Also, the sludge attached to the inner wall of the hopper is crushed using screws and blades attached to the suction pipe, thereby preventing rabbit hole phenomenon.

Here, although the operation method is not described in detail in this embodiment, the sludge discharge concentration is measured by a sensor (not shown) through the control panel 101 shown in Figs. 1 and 2 and the operation speed of the manifold type suction pipe of the sludge discharge unit Further, the operation speed of the sludge collecting unit is minimized according to the operation time of the manifold type suction pipe, thereby effectively preventing deterioration of the water quality due to sludge flotation.

100 .. Settling tank 102 .. Hopper
104. Sludge discharge piping 110. Sludge collection unit
120. Sludge discharge unit 121. Manifold type suction pipe
121a .. First suction pipe 121b .. Second suction pipe
122 .. suction hole 123 .. blade
124 .. screw 125 .. exhaust connector
130. Drive

Claims (7)

1. An apparatus for collecting sludge submerged in gravity on a bottom of a sedimentation tank into a sedimentation hopper and discharging sludge collected in a hopper to the outside of sedimentation basin, comprising:
A manifold type suction pipe communicated with the sludge discharge pipe and rotatably fixed by two brackets mounted on left and right sides of the lower end of the sedimentation hopper,
A plurality of suction holes provided along the longitudinal direction on the outer circumferential surface of the suction pipe for sucking sedimented sludge,
A blade provided on an outer circumferential surface of the suction pipe to crush sludge adhered to the inside of the hopper,
A screw provided on an outer circumferential surface of the suction pipe to guide the crushed sludge to the suction hole,
And a driving unit provided on the sedimentation unit for rotationally driving the manifold type suction pipe through a driving chain. The method according to claim 1,
The manifold type suction pipe includes a first suction pipe and a second suction pipe arranged on the left and right sides of the sludge discharge pipe, and a plurality of suction holes respectively provided in the first suction pipe and the second suction pipe are arranged in opposite directions Sedimentation manifold type sludge collection and discharge device. 3. The method according to claim 1 or 2,
Wherein the manifold-type suction pipe includes a discharge connection port connected to the sludge discharge pipe,
Wherein the manifold-type suction pipe in the discharge connection port includes a diagonal partition wall and a connection hole provided in left and right spaces separated by the partition walls,
Wherein the connection hole is sequentially connected to the sludge discharge pipe when the manifold type suction pipe rotates. The method according to claim 1,
Wherein the screw of the manifold-type suction pipe is provided between a plurality of suction holes. The method according to claim 1,
And the blade of the manifold type suction pipe is provided on the opposite side of the suction hole. The method of claim 3,
The discharge connection port is connected to the manifold type suction pipe through a cylindrical metal bearing so that the manifold type suction pipe can be inserted and rotated,
Wherein the connection hole is formed by opening a metal bearing and is in communication with a discharge hole provided in the discharge connection housing to be connected to the discharge pipe. The method according to claim 1,
The drive unit includes a motor provided on the sedimentation tank, a first sprocket provided on the shaft of the motor, a second sprocket provided on a side of the manifold type suction pipe which is seated below the sedimentation hopper, a first sprocket and a second sprocket A sedimentation manifold-type sludge collecting and discharging device including a driving chain to be connected.

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