KR101322161B1 - Treating apparatus for sludge - Google Patents

Abstract

PURPOSE: An apparatus for treating a sludge is provided to separate moisture from the sludge and recycle the sludge, thereby reducing raw material cost and preventing environmental contamination. CONSTITUTION: An apparatus for treating a sludge comprises: a container(100); a water separation means(200); and a sludge discharging means(300). A sludge outlet(160) to discharge the sludge wherein moisture is removed is formed in the lower side of the container. The water separation means is composed of a pressing plate(210) and an actuator(220) which moves the pressing plate vertically. A mesh shaped pressing plate is provided to the container to pressurize the sludge so that only water passes through. The sludge discharging means contains a rotary shaft(310) with screw wings(320) attached. The pressing plate pressurizes to the upper side of the screw wings, and the sludge outlet is placed on the lower side of the screw wings.

Description

Sludge Treatment Unit {Treating Apparatus for sludge}

The present invention relates to a sludge treatment apparatus, and more particularly to an invention in which the sludge mixed with water is separated and the sludge is discharged downward to automatically treat the sludge.

In the steelmaking process, a conveyer such as a conveyor belt is used to transport raw materials such as coke used as a heat source and a reducing agent or raw materials for manufacturing steel.

In such a transfer facility, the raw material is submerged on the return surface where the raw material is returned after transfer. At this time, the raw material chopped on the return surface in the process of returning the return surface is removed by water washing and krilling. This is to prevent the raw materials thinned on the return surface from continuously falling or falling out during the return process to cause environmental pollution and equipment interference.

That is, to wash the raw material in the form of fine dust by spraying the washing water on the return surface of the transfer facility, or by combining a scraper to be in close contact with the return surface, to scrape off the raw material on the return surface. .

However, sludge and sewage generated during the water washing or cleaning process are generally disposed after being collected in a collection pond without being separated. In general, environmental pollution is caused by the disposal of the sludge and sewage. There is.

In addition, in order to dispose of the sludge and sewage collected in the pond, the sludge and sewage should be discharged by heavy equipment such as a fork lane, and the discharged sludge and sewage should be moved and disposed of in the waste storage. This process requires a lot of manpower and equipment, and wastes processing costs.

On the other hand, the sludge is mixed with the sewage, so that it is difficult to discharge the sludge, there is also a problem that the sludge is not recycled and wasted.

Therefore, there is a need for a device that can separate and process the sludge only.

It is an object of the present invention to provide a sludge treatment apparatus capable of recycling the sludge while at the same time discharging the sludge by separating the sludge from water to automatically treat the sludge.

The sludge treatment apparatus according to an embodiment of the present invention may include a container portion in which sludge is loaded and treated, and water separation means provided to the container portion to pressurize the sludge to remove water from the sludge.

In addition, the sludge treatment apparatus according to an embodiment of the present invention may further include a sludge discharge means provided inside the container portion, wherein the container portion may provide a sludge discharge port through which the sludge from which water is removed is discharged below. .

In addition, the sludge discharging means of the sludge treatment apparatus according to an embodiment of the present invention may include a rotary drive source and a rotating shaft having a screw blade connected to the rotary drive source to convert the rotational force to the discharge force of the sludge.

In addition, the sludge discharge means of the sludge treatment apparatus according to an embodiment of the present invention may further include a support member provided through the one end of the rotary shaft, the container so that the rotary shaft is supported.

In addition, the water separation means of the sludge treatment apparatus according to an embodiment of the present invention includes a pressure plate for pressing the sludge and an actuator associated with the pressure plate to move the pressure plate up and down, wherein the pressure plate is the water It may be a mesh shape that can pass through only.

In addition, the sludge discharge means of the sludge treatment apparatus according to an embodiment of the present invention includes a rotary shaft formed with a screw blade for providing a discharge force to the sludge, wherein the container portion is discharged the sludge from which water is removed to the lower side It includes a sludge discharge port, the pressure plate is pressed only up to the upper side of the screw blade, the sludge discharge port may be provided below the screw blade.

In addition, the container portion of the sludge treatment apparatus according to an embodiment of the present invention may include a guide member for guiding the shangdong of the pressure plate.

In addition, the container portion of the sludge treatment apparatus according to an embodiment of the present invention may include an inlet formed with a vertical partition wall provided inside the flow path so that the sludge is distributed evenly.

In addition, the inclined surface of the tapered shape toward the sludge discharge port may be formed on the lower side of the container portion of the sludge treatment apparatus according to an embodiment of the present invention.

In addition, the sludge treatment apparatus according to an embodiment of the present invention includes a sensor provided in the container portion, and further comprising a control unit for controlling the water separation means or the sludge discharge means in accordance with the detection of the sensor. Can be.

The sludge treatment apparatus according to the present invention has the effect of discharging the sludge alone with water. As a result, the sludge can be recycled, thereby reducing the raw material cost. In addition, there is an effect of preventing the environmental pollution that may occur due to the disposal of the sludge is not disposed of the sludge.

On the other hand, it is unnecessary to add a separate manpower and equipment for the treatment of the sludge has the effect of reducing the treatment cost of the sludge.

In addition, the treatment of the sludge can be made automatically, the treatment time of the sludge is shortened, there is an effect that can improve the productivity of the process.

1 is a schematic view showing a sludge treatment apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view schematically showing a pressure plate of the sludge treatment apparatus according to an embodiment of the present invention.
Figure 3 is a perspective view schematically showing the inlet of the sludge treatment apparatus according to an embodiment of the present invention.
Figure 4 is a perspective view schematically showing a support member of the sludge treatment apparatus according to an embodiment of the present invention.
5A to 5D are schematic diagrams illustrating an operation of a sludge treatment apparatus according to an exemplary embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a schematic view showing a sludge treatment apparatus 1 according to an embodiment of the present invention.

Referring to Figure 1, the sludge treatment apparatus 1 according to an embodiment of the present invention to remove the water (3) from the container portion 100 and the sludge (2) in which the sludge 2 is charged and treated, It may include a water separation means 200 provided to the container portion 100 to press the sludge (2).

In addition, the sludge treatment apparatus 1 according to an embodiment of the present invention further includes a sludge discharge means 300 provided inside the container part 100, and the container part 100 has moisture ( 3) may be provided with a sludge outlet 160 is discharged the sludge (2).

In addition, the sludge discharge means 300 of the sludge treatment apparatus 1 according to an embodiment of the present invention is connected to the rotary drive source 330 and the rotary drive source 330 has a rotational force discharge force of the sludge 2 It may include a rotating shaft 310 is formed with a screw blade 320 to be converted to.

In addition, the sludge discharge means 300 of the sludge treatment apparatus 1 according to an embodiment of the present invention includes a rotary shaft 310 is formed with a screw blade 320 for providing a discharge force to the sludge (2) The container part 100 includes a sludge discharge port 160 through which the sludge 2 from which moisture 3 is removed is discharged, and the pressure plate 210 is pressurized only to an upper side of the screw blade 320. The sludge discharge port 160 may be provided below the screw blade 320.

The sludge treatment apparatus 1 of the present invention is an invention for treating sludge (2) generated in the process of washing the raw material suspended on the raw material transport facility and the water (3) used for washing, only the sludge (2) It can be discharged separately from water (3). Accordingly, the sludge 2 may be recycled as well as an environmental pollution that may occur due to the disposal of the sludge 2. In addition, since the treatment of the sludge 2 is automatically performed, the treatment time of the sludge 2 can be shortened to improve the productivity of the entire process.

The container unit 100 serves to charge or discharge the sludge (2) and water (3). To this end, the container part 100 may include an inlet port 130, a water outlet 150, and a sludge outlet 160.

The inlet 130 serves to introduce the sludge 2 and the moisture (3) will be described later with reference to FIG.

The moisture outlet 150 serves to discharge only the moisture (3). To this end, the water outlet 150 may be provided on the upper side of the container portion (100). That is, since the water (3) can be located at the upper portion by the water separation means 200 to be described later, it is to provide the water outlet 150 to the upper side of the container portion 100 of the water (3) It is advantageous for its discharge. In particular, the water outlet 150 is preferably coupled to the lower end of the pressure plate 210 which will be described later of the water separation means 200 provided on the upper side of the container portion 100 to press. This is because the lowest end that the pressure plate 210 can pressurize corresponds to the lowest end of the portion where only the moisture 3 can be present.

In addition, the water outlet 150 may provide a water outlet door 151. That is, by controlling the opening and closing of the water outlet door 151, it is possible to set whether or not to discharge the water (3).

On the other hand, the water outlet 150 may be connected to a pipe such as a pipe to the water tank that can store the water (3). Moisture 3 stored in the tank may be treated separately from the sludge 2.

In addition, the container portion 100 of the sludge treatment apparatus 1 according to an embodiment of the present invention may provide a sludge discharge port 160 through which the sludge 2 from which moisture 3 is removed is discharged. have. The sludge discharge port 160 serves to discharge only the sludge 2. That is, the sludge 2 from which the water 3 is removed by the water separation means 200 to be described later receives the force directed to the sludge outlet 160 by the sludge discharge means 300 to be described later. 160). The sludge outlet 160 may be opened and closed by a valve. As an example, there may be a rotary valve which is opened and closed by rotating the valve body.

In addition, the container portion 100 of the sludge treatment apparatus 1 according to an embodiment of the present invention may further include a guide member 110 for guiding the shangdong of the pressing plate 210.

The guide member 110 serves to guide the pressure plate 210 to be described later of the water separation means 200. To this end, the guide member 110 may be formed on the side of the container portion 100 to be connected to the guide hole 212 to be described later formed in the pressure plate 210 so that the pressure plate 210 can move up and down. have.

In addition, the inclined surface 140 of the tapered shape toward the sludge discharge port 160 may be formed on the lower side of the container portion 100 of the sludge treatment apparatus 1 according to an embodiment of the present invention.

By the inclined surface 140, the sludge 2 in the container portion 100 serves to concentrate to the sludge discharge port (160). That is, since the sludge 2 can move downward not only by the discharge force by the sludge discharge means 300, but also by the gravity according to the weight of the sludge 2 itself, the lower side of the container portion 100 By having a tapered shape toward the sludge outlet 160, the sludge 2 may face the sludge outlet 160.

 In addition, the container part 100 of the sludge treatment apparatus 1 according to an embodiment of the present invention may further include a vibrator 120.

The vibrator 120 serves to evenly mix the sludge 2 in the container portion 100. That is, the size and density of the particles constituting the sludge 2 are various and often do not mix evenly, the discharge of the sludge 2 may not be easy. Therefore, by vibrating the sludge 2 by the vibrator 120, the sludge 2 is evenly mixed to facilitate the discharge of the sludge 2.

The water separation means 200 serves to separate the sludge (2) and the water (3) stored and mixed in the container portion (100). To this end, the water separation means 200 may include a pressure plate 210 and the actuator 220.

The pressing plate 210 serves to separate the water 3 from the sludge 2 by pressing the sludge 2, which will be described in detail later with reference to FIG. 2.

The actuator 220 serves to move the pressure plate 210 up and down so that the pressure plate 210 pressurizes the sludge 2. The actuator 220 is preferably provided above the container portion 100. On the other hand, it is preferable that the rotary drive source 330 of the sludge discharge means 300 to be described later penetrates the center of the pressure plate 210, the actuator 220 is coupled to one side of the pressure plate 210 to the pressure plate ( It is preferable to move 210 up and down. That is, the actuator 220 may be coupled to the pressure coupling tab 214 of the pressure plate 210. In addition, a plurality of the actuators 220 may be connected to the pressure plate 210, and in this case, the actuators 220 may be symmetrically disposed to balance the force applied to the pressure plate 210 in a balanced manner. have.

The sludge discharge means 300 serves to discharge the sludge 2 to the sludge discharge port 160. To this end, the sludge discharge means 300 may include a rotary drive 310 and the rotating shaft 310 is formed with a screw blade 320.

The rotation drive source 330 serves to provide a rotational force to the rotation shaft 310. To this end, the rotation drive source 330 may include a motor. It is also possible to further improve the torque by including a reducer. However, the rotation drive source 330 may be the rotation drive source 330 of the present invention if it provides a rotational force to the rotation shaft 310.

In addition, the rotation driving source 330 may be integrally formed with the actuator 220. As a result, the pressure plate 210 may be moved up and down while rotating the rotary shaft 310. As an example, a screw bone corresponding to the screw blade 320 formed on the rotating shaft 310 to pass through the pressing plate 210 is formed to move the pressing plate 210 up and down by the rotation driving source 330. At the same time, the rotating shaft 310 may be rotated.

The rotary shaft 310 receives a rotational force from the rotation drive source 330, and serves to deform the sludge 2 into a discharge force acting downward to push the sludge 2 to the sludge discharge port 160. To this end, the screw blade 320 may be formed on the rotary shaft 310.

The screw blade 320 is deformed to move forward while rotating the flow of the fluid by the rotation is preferably a screw (screw) shape. On the other hand, the screw blade 320 is preferably formed so that the diameter is gradually smaller to correspond to the shape of the inclined surface 140 provided on the lower side of the container portion (100). As a result, the screw wing 320 may be maximized to supply the discharge force to the sludge 2 at the maximum, and the discharge force may be uniformly applied to the sludge 2.

In addition, by rotating the screw blade 320, the sludge (2) having various sizes of particles may be evenly mixed to facilitate the discharge to the sludge outlet (160).

In addition, the sludge discharge means 300 may further include a support member 340 for supporting the rotary shaft 310, a detailed description thereof will be described later with reference to FIG.

In addition, the sludge treatment apparatus 1 according to an embodiment of the present invention includes a detection sensor 410 provided in the container part 100, and the water separation means according to the detection of the detection sensor 410 ( 200 or the control unit 400 for controlling the sludge discharge means 300 may be further included.

The detection sensor 410 is provided to the container portion 100 serves to detect that the sludge 2 is filled in the container portion (100). To this end, the sensor 410 is preferably provided on the upper side of the container portion (100). In addition, the detection sensor 410 may be provided on the lower side of the container portion 100 to measure the degree of the sludge 2 is discharged from the container portion 100.

The control unit 400 serves to control the water separation means 200 and the sludge discharge means 300 according to the data sensed by the detection sensor 410. That is, it is connected to the actuator 220 of the water separation means 200 can adjust the lifting and lowering of the pressure plate 210, and is connected to the rotary drive source 330 of the sludge discharge means 300 is the rotary shaft ( The rotation of 310 can be adjusted.

In addition, the controller 400 may be connected to the inlet door 132, the water outlet door 151, and the sludge outlet 160 of the container part 100 to control the opening and closing of each entrance. Thereby, the treatment of the sludge 2 can be made automatically, the processing time of the sludge 2 is shortened, it is possible to improve the productivity of the entire process.

2 is a perspective view schematically showing the pressure plate 210 of the sludge treatment apparatus 1 according to an embodiment of the present invention.

2, the water separation means 200 of the sludge treatment apparatus 1 according to an embodiment of the present invention is the pressure plate 210 and the pressure plate 210 for pressing the sludge 2 up and down In order to move, it includes an actuator 220 associated with the pressure plate 210, the pressure plate 210 may be a mesh shape that can pass only the moisture (3).

The pressure plate 210 serves to separate the moisture (3) from the sludge 2 by pressing only the sludge (2). In addition, by pressing the sludge 2, it also serves to help the sludge 2 is discharged to the sludge outlet 160. To this end, the pressing plate 210 may be connected to the actuator 220 to receive a pressing force.

In addition, the pressing plate 210 may be shaped to pass only the moisture (3) when pressing the sludge 2 and the moisture (3) stored and mixed in the container portion (100). As an example, the pressing plate 210 may form a mesh-shaped mesh portion 211 to allow only the moisture 3 to pass therethrough. Therefore, the mesh-shaped portion 211 is preferably formed in a fine mesh so that the sludge 2 does not pass. However, the present invention is not limited to the above-described mesh shape, and may be included in the present invention as long as water 3 may be removed from the sludge 2 such as a filter membrane.

In addition, the pressing plate 210 may be formed with a pressing rotary shaft hole 213 through which the rotating shaft 310 can pass. The pressure plate 210 may move up and down without interference with the rotation shaft 310 through the pressure rotation shaft hole 213. However, since the rotation shaft 310 is rotating, friction with the pressure rotation shaft hole 213 may occur. Therefore, a bearing 215 is formed inside the pressure rotating shaft hole 213 to reduce friction. The bearing 215 is preferably a linear bearing 215 capable of reducing frictional force due to rotation, but is not limited thereto. If the bearing 215 can reduce friction between the rotating shaft 310 and the pressure rotating shaft hole 213, It can be the bearing 215 of the present invention.

In addition, a guide hole 212 may be formed in the pressing plate 210 to move along the guide member 110. This is an advantage that can be prevented from being separated on the path in the container portion 100, when the pressure plate 210 is raised and lowered.

In addition, the pressure plate 210 may provide a pressure coupling tab 214 to which the actuator 220 may be coupled. This is because the mesh-shaped portion 211 of the pressing plate 210 and the actuator 220 is difficult to be coupled to form the pressure coupling tab 214 on the rib (rib) of the pressing plate 210 to the actuator It is preferred to combine with (220).

On the other hand, in order to avoid interference with the screw blade 320, the pressure plate 210 is preferably pressed down to the upper side of the screw blade 320.

3 is a perspective view schematically showing the inlet 130 of the sludge treatment apparatus 1 according to an embodiment of the present invention.

Referring to FIG. 3, the container portion 100 of the sludge treatment apparatus 1 according to an embodiment of the present invention has a vertical bulkhead 131 provided inside the flow path so that the sludge 2 is evenly distributed therein. It may include the formed inlet 130.

That is, the sludge 2 may be composed of particles having various densities and sizes, and the sludge 2 may be biased to one side to be introduced into the container part 100 so as to prevent the sludge 2 from being perpendicular to the inside of the flow path. It is preferable to form a vertical partition 131, which is a partition formed by.

The vertical bulkhead 131 is preferably formed at the inlet 130 side of the pipe in which the sludge 2 is introduced. In addition, the number and length of formation of the vertical bulkhead 131 may be formed differently according to the composition of the sludge 2 introduced.

On the other hand, the inlet 130 may be provided with an inlet door 132. The inlet door 132 controls the inflow of the sludge 2 into the container part 100.

4 is a perspective view schematically showing a support member 340 of the sludge treatment apparatus 1 according to an embodiment of the present invention.

Referring to FIG. 4, one end of the rotary shaft 310 penetrates the sludge discharge means 300 of the sludge treatment apparatus 1 according to an embodiment of the present invention so that the rotary shaft 310 is supported. The container member 100 may further include a support member 340.

The support member 340 supports the rotation shaft 310 to prevent the rotation shaft 310 from shaking when the rotation shaft 310 rotates, and serves to help the rotation shaft 310 to rotate stably. To this end, the support member 340 may be formed with a rotating shaft support hole 341 through which the rotating shaft 310 can pass. In addition, since the support member 340 is to be formed at the lower end of the rotating shaft 310 is preferably provided below the container portion (100). On the other hand, if the support member 340 is provided below the container portion 100, the sludge 2 should be discharged to the sludge outlet 160 through the support member 340, the support member The sludge movement hole 342 through which the sludge 2 can pass is preferably formed at 340.

On the other hand, the support member 340 may pass through the sludge 2, but the moisture (3) may be formed in the permeable membrane, in this case the sludge (2) to the water (3) 2 There is an advantage that can be removed automatically. As an example, there may be a filter coated with an oily surface.

5A to 5D are diagrams schematically showing an operation of the sludge treatment apparatus 1 according to an embodiment of the present invention.

5A to 5D, FIG. 5A illustrates a process in which the sludge 2 is introduced into the container part 100, and FIG. 5B illustrates that the water separation means 200 receives moisture (3) from the sludge 2. ) Process. In addition, Figure 5c is a process in which the sludge discharge means 300 to discharge the sludge 2 by applying a discharge force to the sludge 2, Figure 5d is the sludge 2 is discharged, the sludge again (2) shows the waiting process that can be introduced.

In detail, in FIG. 5A, the sludge 2 including water 3 is introduced into the inlet port 130 (SW1). To this end, the inlet door 132 should be in an open state (Open: O), and the water outlet door 151 and the sludge outlet 160 should be in a closed state (Close: C). In this case, when the sludge 2 fills the container part 100 at a predetermined height, the sensing sensor 410 detects the sludge 2.

In FIG. 5B, according to the detection of the detection sensor 410, the inlet door 132 is in a closed state (C). Thereafter, the actuator 220 presses the sludge 2 by lowering the pressure plate 210 (M1). As a result, the sludge 2 that does not pass through the mesh shape of the pressing plate 210 is pressurized by the sludge discharge port 160, and the moisture 3 that may pass through the mesh shape is on the upper side of the pressing plate 210. By moving to, the water (3) is separated from the sludge (2). Accordingly, in order to discharge (W2) only the water 3 separated from the sludge 2, the water discharge door 151 is in an open state (O), and the water (3) is the water discharge port. At 150, it is discharged (W2), and stored in the tank. On the other hand, the sludge discharge port 160 is in a closed state (C).

In FIG. 5C, all of the water 3 is discharged to maintain the water outlet door 151 and the inlet door 132 in a closed state (C), and the sludge outlet 160 is in an open state (O). Will be set. In addition, when the rotary drive source 330 of the sludge discharge means 300 transmits a rotational force to the rotary shaft 310 so that the rotary shaft 310 rotates (R1), the screw blade 320 formed on the rotary shaft 310 ) Also rotates (R1), thereby forming a flow in which the sludge 2 is advanced. Accordingly, by providing a discharge force to the sludge 2, the sludge 2 is discharged to the sludge outlet 160 (S2).

The discharged sludge 2 is conveyed by the transfer conveyor belt 4 for recycling. The conveyor belt 4 is preferably formed in a curved shape recessed down so that the sludge 2 discharged from the sludge discharge port 160 is not separated.

In FIG. 5D, the sludge 2 from which water 3 has been removed is discharged to set the sludge outlet 160 to a closed state (C), and the water outlet door 151 and the inlet door 132 are Keep it closed (C). In addition, the pressure plate 210 is raised (M2), the sludge 2 is returned to the standby state can be introduced again.

1: sludge treatment device 2: sludge
3: moisture 4: conveyor belt
100: container 110: guide member
120: vibrator 130: inlet
131: vertical bulkhead 132: inlet door
140: slope 150: water outlet
151: water discharge outlet door 160: sludge discharge outlet
200: water separation means 210: pressure plate
211: mesh shape portion 212: guide hole
213: pressure rotating shaft hole 214: pressure coupling tab
215: bearing 220: actuator
300: sludge discharge means 310: rotating shaft
320: screw blade 330: rotational drive source
340: support member 341: rotary shaft support hole
342: sludge movement hole 400: control unit
410: detection sensor

Claims (10)

A container unit for providing a sludge discharge port through which the sludge from which water is removed is discharged so that the sludge is charged and processed;
Water separation means including a pressure plate provided in the container unit in a mesh shape through which only water can pass and pressurizing the sludge, and an actuator provided in association with the pressure plate to move the pressure plate up and down; And
Sludge discharge means provided in the container portion;
/ RTI >
The sludge discharge means includes a rotary shaft formed with a screw blade for providing a discharge force to the sludge,
The container portion includes a sludge discharge port through which the sludge from which water is removed is discharged.
The pressure plate is pressurized only to the upper side of the screw blade, the sludge discharge port is provided in the lower side of the screw blade. A container unit for providing a sludge discharge port through which the sludge from which water is removed is discharged so that the sludge is charged and processed;
Water separation means including a pressure plate provided in the container portion in a mesh shape through which delivery can pass and pressurizing the sludge, and an actuator provided in association with the pressure plate to move the pressure plate up and down; And
Sludge discharge means provided inside the container portion;
/ RTI >
The container portion guide member for guiding the shanghaidong of the pressure plate;
Sludge treatment apparatus to provide more. 3. The method according to claim 1 or 2,
The sludge discharge means is a rotary drive source; And
A rotating shaft connected to the rotation driving source and having a screw blade configured to convert rotational force into discharge force of the sludge;
Sludge treatment apparatus comprising a. The method of claim 3,
The sludge discharge means includes a support member which penetrates one end of the rotating shaft so that the rotating shaft is supported and is provided in the container portion;
Sludge treatment device further comprising. delete delete delete 3. The method according to claim 1 or 2,
The container portion has an inlet formed with a vertical bulkhead provided inside the flow path so that the sludge is distributed evenly;
Sludge treatment apparatus comprising a. 3. The method according to claim 1 or 2,
And a slanted surface having a tapered shape toward the sludge discharge port under the container portion. 3. The method according to claim 1 or 2,
It includes a sensor provided in the container,
A controller for controlling the water separation means or the sludge discharge means according to the detection of the detection sensor;
Sludge treatment device further comprising.

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