KR20020088967A - Apparatus for discharging sludge in waste water settling tank - Google Patents

Abstract

PURPOSE: An apparatus for discharging sludge in a wastewater settling tank is provided to improve efficiency of wastewater treatment by sensing turbidity so that sludge settled is more smoothly discharged out of the settling tank without any additional manual work. CONSTITUTION: In a settling tank(10) in which sludge in wastewater is settled and treated, the apparatus for discharging sludge in a wastewater settling tank comprises a sludge pit(20) which is installed at one point of the lower side of the bottom of the settling tank(10), and at the upper side of which a sludge discharge port(22) is formed to discharge sludge collected by a scraper(12); an open and shut means(30) which opens and shuts the sludge discharge port(22), and which is expandably and contractably installed in the sludge pit(20) to transfer sludge to a discharge pipe; a sludge discharge part(50) that is vertically movably and foldably installed at the upper side of the sludge discharge port(22) to discharge sludge through the sludge discharge port(22); and a sensor means(70) that is installed in the settling tank(10) to control discharging of sludge by a sludge discharge plate by sensing turbidity of sludge inside the settling tank(10).

Description

Sludge discharge device of wastewater sedimentation tank {APPARATUS FOR DISCHARGING SLUDGE IN WASTE WATER SETTLING TANK}

The present invention relates to a sludge discharge device for discharging the sludge precipitated in the sedimentation tank for processing wastewater generated in the industry to the outside of the sedimentation tank, more specifically, the operator by visually detecting the turbidity changes according to the amount of sludge deposited in the sedimentation tank The present invention relates to a sludge discharge device of a wastewater sedimentation tank which can improve the efficiency of wastewater treatment by discharging the sludge sedimented to the outside of the sedimentation tank more smoothly without any manual labor for detecting the level of sludge.

In general, most industries, for example, steel mills use a large amount of cooling water or washing water to cool products and equipment or to clean parts, which in turn generates a large amount of used water, that is, waste water. Waste water must be subjected to a purification treatment, which is usually subjected to several stages of treatment for the purification of the wastewater, which requires the work of precipitating sludge of heavy metals contained in the wastewater, and in FIG. 1, such wastewater treatment. The conventional sludge treatment sedimentation tank which sediments and processes sludge contained in municipal wastewater is shown.

That is, as shown in Figure 1, the sludge (S) in the waste water (W) by the agitator 112 installed in the port 110 in the center of the settling tank 100, the bottom of the settling tank 100 (100a) ), And the supernatant of the settling tank 100 moves to the next step (sedimentation tank) through the upper side of the settling tank 100, although the outlet is not shown in detail in the drawing.

Therefore, since the sludge S precipitated in the conventional settling tank 100 is continuously precipitated at the bottom of the settling tank 100, it should be discharged periodically, if the amount of sludge S precipitated is too large, the settling tank 100 This is because the purification of its own falls.

However, in the related art, while the worker periodically grasps the amount of sludge through the sludge level (not shown) directly installed around the settling tank 100 in order to determine the amount of sludge S, the amount of sludge S precipitated is If the predetermined level or more, the sludge discharge pump 120 installed above the settling tank 100 was operated to discharge the sludge S in the settling tank 100 to the concentration tank 130.

As a result, in the conventional sludge discharge operation in the sedimentation tank, as shown in FIG. 1, in order to grasp the amount of sludge sedimentation in the sedimentation tank 100, an operator moves directly to the site where the sedimentation tank 100 is installed to visually adjust the sludge level. After the check, the pump 120 is operated to discharge the sludge S to the concentration tank 130. Therefore, when the checking operation of the sludge amount of sludge is delayed, the amount of sludge settled in the settling tank increases and the treatment efficiency of the wastewater is increased. It will be degraded.

In addition, when a separate worker is required, sludge discharge is not made correctly when the worker is misoperated, and especially when the amount of sludge becomes excessive, the sludge may leak to the next treatment step (sedimentation tank).

Accordingly, the amount of sludge settled in the settling tank 100 is automatically measured without the operator's manual work, and the sludge S is quickly discharged to the outside, especially when the sludge is discharged through the bottom 100a of the settling tank 100 to discharge the sludge. It would be desirable because it is done smoothly.

The present invention has been made in order to improve the various problems as described above, the object of the present invention is to automatically detect the turbidity of treated water in the sedimentation tank according to the amount of sludge settled in the sedimentation tank, It is to provide a sludge discharge device of the wastewater sedimentation tank to facilitate the discharge of sludge through the sedimentation tank by allowing the sludge to be discharged smoothly through the bottom of the sedimentation tank.

In addition, another object of the present invention, as well as to discharge the sludge quickly and smoothly, in particular by discharging the sludge to the outside through the bottom of the sedimentation tank, a greater amount of sludge is discharged to improve the wastewater sludge treatment efficiency of the wastewater sedimentation tank To provide a sludge discharge device.

Figure 1 is a schematic diagram illustrating the sludge discharge operation of the wastewater sedimentation tank by on-site confirmation of the conventional worker

Figure 2 is a front configuration diagram showing the overall configuration of the sludge discharge apparatus of the wastewater sedimentation tank according to the present invention

Figure 3 is a schematic plan view showing a sludge discharge device of the present inventors wastewater sedimentation tank

Figure 4 is a main part showing a sludge discharge device of the present inventors wastewater sedimentation tank

Figure 5 is a plan view of the main part showing the discharge plate in the sludge discharge device of the present inventors wastewater sedimentation tank

Figure 6 is a front view showing the main part showing the sludge pit and the air bag installed therein in the sludge discharge device of the present invention wastewater sedimentation tank

Explanation of symbols on the main parts of the drawings

1 .... sludge discharge device of sedimentation tank 10 .... sedimentation tank

12 .... scraper 20 .... sludge feet

22 .... sludge outlet 26 .... discharge line

30 .... Opening and closing means 32 ... Air line

50 .... Sludge discharge 52 .... Drain plate

53 .... strainer 54 .... support block

56,60 .... Cylinder 57 .... Blocking rubber

58 .... moving block 62 .... working rod

66 .... Connecting bar 70 .... Sensor means

72 .... Fluorescent Lamp 74 .... Photoelectric Sensor

As a technical configuration for achieving the above object, the present invention, in the sedimentation tank for sedimentation and treatment of sludge in the waste water, is installed at one point below the bottom of the sedimentation tank, the upper side is discharged sludge collected as a scraper Sludge pits with outlets formed,

An opening / closing means installed in the sludge pit so as to open and close the sludge discharge port and move the sludge to the discharge pipe;

A sludge discharge part having a discharge plate installed to be vertically movable and folded upwardly so as to discharge sludge through the sludge discharge port,

By detecting the sludge turbidity in the sedimentation tank by providing a sludge discharge device of the wastewater sedimentation tank consisting of sensor means installed in the sedimentation tank to control the discharge of the sludge by the sludge discharge plate.

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

Figure 2 is a front configuration diagram showing the overall configuration of the sludge discharge device of the wastewater sedimentation tank according to the present invention, Figure 3 is a schematic plan view showing the sludge discharge device of the present invention, Figure 4 shows the sludge discharge device of the present invention. Fig. 5 is a plan view of the main part showing the discharge plate of the present invention, and Fig. 6 is a front view of the main part showing the air bag which is an opening / closing means installed in the sludge pit according to the present invention.

Figure 2 shows the overall configuration of the sludge discharge device 1 of the present invention wastewater sedimentation tank, the sludge discharge device 1 of the present invention is largely the sludge pit 20, opening and closing means 30 and the sludge discharge unit It can be divided into 50 and the sensor means 70, looking at each of these components in more detail as follows.

First, FIG. 2 shows a sludge settling tank 10 in which the sludge discharge device 1 of the present invention is installed, and in the center thereof, a settling tank pit 14 having a stirrer 14a for smoothly settling the sludge S is provided. ) Is installed, the stirrer (14a) is rotated by a drive motor (M1) connected to the upper side.

Meanwhile, in FIGS. 2 and 3, the scraper 12 is installed to collect the sludge S in the apparatus 1 of the present invention to the sludge discharge port 22 side of the sludge pit 20 described below. 12 is a wire 12a to move in a state of being in close contact with the bottom 10a of the settling tank 10 to the lower side of the moving plate 16 circularly moving toward the apex at the center pit 14 side of the settling tank 10. And a fixing stand 12b or the like.

As shown in FIG. 3, the moving plate 16 is provided with a driving motor M2 at an end thereof, and a driving roll R1 connected to the driving motor M2 is connected to the settling tank 10. It is supported on the outer upper end, and the transfer roll (R2) is connected to both sides of the movable plate 16 on the opposite side of the drive roll (R1), respectively, when the drive motor (M2) is driven the moving plate (16) The circular movement along the settling tank 10 with the center pit 14 at its apex, the scraper 12 also moves in a state of being in close contact with the bottom (10a) of the settling tank 10 integrally.

By the way, it is preferable that such a scraper 12 is provided so that it may reciprocate repeatedly and circularly to the front-back side, without passing through the sludge discharge port 22 of the sludge pit 20 demonstrated below.

Next, the sludge pit 20 of the apparatus of the present invention is shown in Figure 2, the sludge pit 20 of the present invention, such as a square foot extending downward from the bottom (10a) of the sedimentation tank (10) The sludge outlet 22 is formed on the upper side of the square sludge pit 20, and the wall structure is integrally connected, and discharges the sludge S substantially. As seen, the sludge outlet 22 is preferably formed in a straight line with the bottom (10a) surface of the settling tank (10).

2 and 6, a sludge discharge pipe 26 is connected to one side of the sludge pit 20 through a flange 24, and sludge S is connected to the sludge discharge pipe 26. An open valve 26a is installed to prevent excessive discharge of the sedimentation water while controlling the discharge of the water. However, although schematically shown in the drawing, the opening / closing belt 26a is connected to the controller C shown in FIG. 2. It would then be possible to have an electronically actuated solenoid valve whose operation is controlled.

On the other hand, the opening and closing means 30 of the device of the present invention shown in the overall configuration of the device in Figure 2 is shown in detail as a main view in FIG.

That is, as shown in Figure 6, the opening and closing means 30 of the present invention is installed in the sludge pit 20 to open and close the sludge outlet 22, the actual opening and closing means 30 is An air bag having one end fixed to the inside of the air pipe 32 connected to the other side of the sludge pit 20, the air bag 30 is inflated and contracted as the supplied air A, and the pit 20. The upper sludge discharge port 22 is opened and closed, and at the same time, the sludge S introduced in the following is forced to discharge to the discharge pipe 26 side.

In addition, the air pipe 32 has a control valve 34 for adjusting the air (A) supplied for the expansion of the air bag 30, and an air discharge pipe 36 for discharging air when the air bag 30 shrinks The control valve 34 is installed in front of the, the air discharge pipe 36 is provided with a control valve 34 for controlling the air discharged similarly, although shown schematically in the drawing, the control unit (C) It is desirable to have an electromagnetically actuated solenoid valve connected to and controlled in operation.

Next, the sludge discharge part 50 of the apparatus of the present invention shown in the overall configuration in Figure 2 is shown in detail as a main view in Figure 4, such sludge discharge portion 50 is the sludge discharge port 22 It is equipped with a discharge plate 52 which is installed to be able to vertically move and fold upward so that the sludge is discharged through.

On the other hand, the sludge discharge unit 50, the movable block 58 is installed to move up and down as a first cylinder 56 on the support block 54 horizontally fixed to the inner wall (10b) of the sedimentation tank, and the movement It is provided with an operating rod 62 connected up and down as a second cylinder 60 installed on the movable block 58 to the inside of the fixing unit 58a fixed to the lower part of the block 58.

In addition, as shown in Figure 4, the moving block 58 is formed with a protrusion (59a) on one side is inserted into the concave guide portion (59c) of the support block 54, on the support block 54 The rod 56b of the first cylinder 56 installed perpendicular to the protrusion 56b is fixed on the protrusion 59a of the idol block 58 and at the same time the protrusion 59a of the support block 54 and the moving block 58. The fixing bolt 59b and the nut are fixed to be spaced apart from each other so that the moving block 58 is lowered during the lowering operation of the first cylinder (56).

And, as shown in Figure 4, the fixing unit 58a of the movable block 58 is vertically supported through the base (B) horizontally mounted on the inner wall (10b) of the sedimentation tank 10, The base B and the support block 54 are detachably fixed to the inner wall 10b of the settling tank 10 as bolts.

Next, FIG. 5 illustrates the discharge plate 52 in a plan view, and the discharge plate 52 is configured to discharge the sludge through the outlet 22 of the sludge pit 20 as described in detail below. Approximately four filter nets 53 are provided for facilitating movement of the discharge plate 52 in the settling tank and ensuring the discharge of the sludge. Such a filter net 53 is provided when the discharge plate 52 is lowered. It would be desirable that the precipitated water be formed very finely so that the sludge is drained and the sludge filtered.

In addition, the bottom of the discharge plate 52 discharges the sludge S by the discharge plate 52, that is, when the pit discharge port 22 of the sludge passes through the discharge plate 52 of the discharge plate 52. Blocking rubber 57 is attached to prevent the sludge from coming out, this blocking rubber 57 is attached along the bottom surface of the discharge plate 52 to a predetermined thickness.

In addition, the discharge plate 52 should be at least larger in size than the outlet 22 of the sludge pit 20, the discharge plate 52 is connected to the central portion by the feldspar 55 to enable the folding operation when moving up and down It consists of two-stage plates 52a and 52b.

That is, as shown in FIGS. 4 and 5, the rod 60b of the second cylinder 60 installed above the moving block 58 is the coupling 60c at the center of the discharge plate 52. It is connected, and the lower end of the operating rod 62 through the hollow formed in the interior of the fixing (58a) is connected as a hinge (64).

In addition, the lower end of the connecting bar 66, the upper end of which is hinge 66a connected to the fixing base 58a, is hinged 64a and 64b to the two-stage plates 52a and 52b, respectively. 1 When the cylinder 56 is driven, the movable block 58 is lowered so that the position of the discharge plate 52 is moved up and down so that it can be fixed on the discharge port 22 above the discharge port 22 of the sludge pit 20. In addition, the discharge plate 52 is configured to be foldable by the operation rod 62 which moves up and down integrally when the second cylinder 60 is driven.

Next, the sensor means 70 of the apparatus of the present invention shown in FIG. 2 as a whole configuration is shown in detail as a main part in FIG. 4, the sensor means 70 of the present invention is the settling tank 10 Sludge turbidity in the interior is detected and installed in the settling tank 10 to control the discharge of the sludge (S) by the sludge discharge plate 52.

That is, the sensor means 70 detects the light of the fluorescent lamp 72 in front of the fluorescent lamp 72 is installed perpendicular to the inner wall (10b) of the settling tank 10, the sludge in the settling tank (10) It is comprised as the photosensor 74 installed so that turbidity may be detected.

By the way, although schematically shown in the drawings, since the fluorescent lamp 72 and the photosensor 74 is installed in the settling tank 10, it is important that the cable connection portion and the like should be sealed so that an electrical short does not occur. The fluorescent lamp 72 and the photosensor 74 is fixed vertically spaced apart from each other on the base (B) mounted as a bolt in the lower portion of the inner wall (10b) of the settling tank 10, wherein the fluorescent Since the distance between the lamp 72 and the photosensor 74 affects the detection of the turbidity of the settling tank by the photosensor 74, it is necessary to set a static interval in advance.

In addition, although not shown in detail in the drawing, the fluorescent lamp 72 is configured to be supplied with power as a cable to the upper side, the photosensor 74 is moved up and down of the discharge plate 52 in accordance with its operation; The first and second cylinders 56 and 60 to enable the movement of the discharge plate 52 to perform the folding operation, and the solenoid valves 56a and 60a and the control unit C to enable the operation. It consists of the configuration connected through.

Referring to the operation and effects of the present invention made in the above configuration in more detail as follows.

As shown in Figure 2 to 6, the sludge S contained in the waste water automatically detects the sludge turbidity in the settling tank 10 without checking the level of the operator sludge (S) through the bottom of the settling tank 10 By discharging smoothly), the sludge discharge device (1) of the present invention wastewater sedimentation tank to improve the efficiency of wastewater treatment is as follows.

First, as shown in FIGS. 2 and 3, when the driving motor M1 installed on the central pit 14 of the settling tank 10 is operated, the stirrer 14 is operated while the stirrer 14a in the pit 14 operates. Sludge (S) contained in the wastewater in the sediment to the bottom (10a) of the settling tank 10, the supernatant is moved to the next treatment step (sedimentation tank) through the top of the settling tank (10).

On the other hand, as shown in Figure 3, when the operator moves the drive motor (M2) to the circular plate to move the circular motion of the upper side of the settling tank 10, the center pit 14 to the top of the tip, the above When the wire 12a and the fixed base 12b are moved to the lower side of the moving plate 16, the sludge settled over the entire portion of the settling tank bottom 10a is collected toward the sludge pit 20 described later.

Next, as shown in FIGS. 2 and 4, as the amount of sludge deposited in the settling tank 10 increases, the sludge turbidity in the settling tank 10 becomes deeper, and eventually the fluorescent lamp 72 installed downward in the settling tank 10. ) Is not detected by the photosensor 74 is installed to one side,

That is, when detecting the light of a predetermined level by setting the comb detection amount of the photosensor 74 in advance, the photosensor 74 operates to send an electrical signal to the control unit (C) connected thereto, the control unit The solenoid valve 60a connected to the second cylinder 60 among the solenoid valves connected to (C) is operated.

Therefore, when the second cylinder 56 is raised, the connected working rod 62 is raised, and thus two discharges are made of two stages of feldspar 55 and hinged at the center portion of each hinge and connecting bar 66. The plates 52a and 52b are flattened when the working rod 62 is raised.

Next, when the first cylinder 56 is lowered by the connected solenoid valve 56a, the protrusion 59a of the movable block 58 fixed to the first cylinder 56 is lowered, and eventually the movable block A horizontally developed discharge plate 52 connected to the lower side of the working rod 62 of 58 is covered on the outlet 22 of the sludge pit 20 installed below the bottom of the settling tank 10.

Accordingly, the blocking rubber 57 installed at the bottom of the discharge plate 52 prevents the sludge S from escaping to the outside, and the filter nets 53 installed on the discharge plates 52a and 52b are discharge plate ( When the sludge S is pressed while the 52 is lowered, only the sedimented water is allowed to come out, and thus the sludge S is effectively discharged while the lowering operation of the discharge plate 52 is made smoothly.

Next, when the discharge plate 52 is lowered, by the strapper 12 described above to the outlet 22 of the sludge pit 20 installed in a square shape at the bottom 10a of the settling tank 10. Discharge of the sludge through the pit 20 is possible while pressing the collected sludge S.

By the way, as shown in FIG. 2 and FIG. 6, the airbag 30 which is a pit opening-and-closing means which expands and contracts as air is arrange | positioned in the said pit 20, The initial airbag 30 is an air pipe 32 When the air A introduced through the air is constricted through the discharge pipe 36, the sludge pressed as the discharge plate 52 is introduced into the pit 20, and then the air bag 30 is inflated, and the pit 20 The outlet 22 of the blockage is blocked, instead, the sludge S discharged from the sedimentation tank 10 into the sludge pit 20 is discharged to the discharge pipe 26 connected to the sludge pit 20 as the flange 24 and the valve 26a. Is handled by operation.

At this time, as shown in FIG. 4, before the pit outlet 22 is blocked by the airbag 30, the second cylinder 60 is lowered to fold the second stage discharge plate 52, and then the One cylinder 56 is raised to raise the movable block 58 and the discharge plate 52 integrally.

Therefore, when the pit discharge operation of the sludge is repeatedly performed by the discharge plate 52 as described above, the sludge turbidity in the settling tank 10 becomes more and more favorable, which in turn results in detecting the light of the fluorescent lamp 72. When the light sensitivity of the sensor 74 is improved to be equal to or more than a preset light detection amount, the photosensor 74 sends a signal to the connected control unit C to discharge the first and second cylinders 56 and 60. The operation of the plate 52 is stopped, and at the same time, the airbag 30 is inflated to seal the outlet 22 of the sludge pit 20, and when the sludge turbidity in the settling tank is increased, the light sensing force by the photosensor 74 is increased. The sludge discharge operation is carried out again.

That is, when the air bag 30 is in the initial contraction state and the sludge S is introduced into the pit 20 by the lowering of the discharge plate 52 while the discharge pipe is closed as the opening / closing valve 36a of the discharge pipe 26. The airbag 30 expands while the airbag 30 expands, and the airbag 30 expands by opening the airbag 30 to seal the pit outlet 22 to prevent excessive discharge of sedimented water. Forced discharge treatment into the discharge pipe (26).

Accordingly, the sludge discharge device 1 of the present invention automatically sets the sludge settled as the turbidity of the sludge, compared to performing the sludge discharge operation after the worker comes to the site and grasps the sludge settling tank level. After sensing, by discharging the sludge through the bottom of the sedimentation tank 10, it is possible to more efficiently remove the sludge contained in the waste water, and also to prevent the sludge outflow to the other stage due to the excessive sedimentation of the sludge.

Thus, according to the sludge discharge device of the present invention wastewater sedimentation tank, by automatically detecting the sludge sedimentation state in the sedimentation tank without operator's on-site confirmation, to discharge the sludge, as well as excellent sludge discharge, the sludge treatment efficiency of the sedimentation tank is extremely improved. Provide effect.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (6)

In the settling tank 10 which precipitates and processes sludge in wastewater, A sludge pit 20 installed at one point under the bottom of the settling tank 10 and having a sludge discharge port 22 formed thereon for discharging the sludge S collected as the scraper 12; Opening and closing means 30 is installed in the sludge pit 20 to contract and expand to open and close the sludge outlet 22 and to move the sludge to the discharge pipe; A sludge discharge part (50) having a discharge plate (52) installed so as to vertically move and fold upward so that sludge is discharged through the sludge discharge port (22); And, Sludge turbidity in the settling tank 10 is detected by the sensor means 70 is installed in the settling tank 10 to control the discharge of the sludge (S) by the sludge discharge plate 52, characterized in that Sludge Discharge Device of Wastewater Sedimentation Tank According to claim 1, wherein the scraper (12) is installed in the settling tank 10 for the circular motion before and after the sludge outlet 22 of the pit (20), The sludge pit 20 is formed as a square pit integrally extended downward from the bottom 10a of the settling tank 10, and the sludge outlet 22 is the settling tank 10 at the upper side of the pit 20. The sludge of the wastewater sedimentation tank is formed in a straight line with the bottom 10a surface of the pit 20, and the sludge discharge pipe 26 for discharging the sludge to the outside of the sedimentation tank as a flange 24 is connected to one side of the pit 20. Ejector According to claim 1, The opening and closing means 30 is composed of an air bag, one end is fixed to the inside of the air pipe 32 connected to the other side of the sludge pit 20, the air bag 30 is supplied The sludge discharge device of the wastewater sedimentation tank, characterized in that the sludge discharge port 22 on the pit 20 is opened and closed while the air A is expanded and contracted, and the sludge in the pit 20 is discharged to the discharge pipe. According to claim 1, The sludge discharge part 50, A moving block 58 installed up and down as a first cylinder 56 on a support block 54 horizontally fixed to the inner wall 10b of the sedimentation tank, and It characterized in that it comprises an operating rod 62 is connected to move up and down as a second cylinder (60) installed on the moving block 58 to the inside of the fixed base (58a) fixed to the lower portion of the moving block (58). Sludge Discharge Device of Wastewater Sedimentation Tank The discharge plate 52 is equipped with a plurality of filter nets 53, a blocking rubber 57 to block the movement of the sludge (S) at the bottom is attached, feldspar 55 It consists of a two-stage plate (52a) (52b) foldably connected to The lower end of the connection bar 66 is connected to the hinge 64 of the lower end of the operation rod 62 and the lower end of the connecting rod 66 is connected to the fixing unit 58a at the center of the discharge plate 52. Hinge 64a, 64b is connected to the center of each of the 52a, 52b so that the discharge plate 52 is configured to be movable up and down and foldable when the first and second cylinders 56, 60 are driven. Sludge discharge device of wastewater sedimentation tank 5. The fluorescent lamp 72 according to claim 1 or 4, wherein the sensor means (70) is installed perpendicular to the inner wall (10b) of the settling tank (10) and the light of the fluorescent lamp (72) in front of it. Is configured as a photosensor 74 is installed to detect the sludge turbidity in the sedimentation tank 10, The photosensor 74 is connected to the solenoid valves 56a and 60a and the control unit C, which are connected to the first and second cylinders 56 and 60 to enable vertical movement and folding of the discharge plate 52. Sludge discharge device of the wastewater sedimentation tank, characterized in that connected