JP2000317219A - Sludge withdrawal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to efficiently discharge sludge from a sedimentation basin with a sludge withdrawal device which discharges the sludge deposited on the base surface of the sedimentation basin to the outside via discharge pipe by providing a chamber partition by a plate having holes with the discharge pipe and forming these holes to an area smaller than the cross-sectional area of the discharge pipe. SOLUTION: The sedimentation basin (a) is so constituted as to receive raw water via a raw water inflow pipe 1a from one end side and to discharge treated water (supernatant water) via a treated water outflow pipe 1b disposed at the other end side. A scraper 4 is freely movably placed on the base surface 2 of the sedimentation basin (a). The perforated plate 10 is disposed to cover the front surface of a sludge pit 3 formed on the raw water accepting side on the base surface 2 of the sedimentation basin (a) and in such a case the holes 11... formed at the perforated plate 10 are so arranged as to be made approximately uniform when the perforated plate 10 is viewed from the front surface. The holes 11 are so formed that the sum of all the areas of the holes is smaller than the cross-sectional area of the discharge pipe 12 opened at the bottom of the sludge pit 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a sludge discharging apparatus,
In particular, the present invention relates to a method in which sludge deposited on the bottom of a sedimentation basin can be efficiently discharged out of the sedimentation basin in a high concentration state.

[0002]

2. Description of the Related Art Conventionally, a water treatment facility such as a water purification plant facility or a sewage plant facility is provided with a sedimentation pond for sedimenting and separating settling solids. The settling basin is provided with a scraper for scraping the sludge deposited on the bottom surface into a sludge pit provided on a part of the bottom surface. The sludge pit has an inverted conical cross section and is configured to be discharged continuously or intermittently through a discharge pipe opened at the bottom of the sludge pit.

[0003]

However, when the above-mentioned conventional sludge discharge device discharges sludge from a sludge pit,
There is a drawback that the water path is formed in the sludge in the sludge pit and the concentration of the discharged sludge becomes low, and the load of the subsequent sludge treatment increases.

More specifically, referring to FIGS. 5 (a) and 5 (b), the sludge deposited on the bottom surface of the sedimentation basin b is raked into the sludge pit 21 by the scraper 20, and the sludge pit 21 is removed. Is almost full (see FIG. 5A), the discharge pipe 2
2 is opened.

When the valve V is opened, the sludge S is discharged from the lower part of the sludge pit 21.
A water path is formed as shown by the arrow in FIG. 2B, and the sludge having a low concentration is discharged from the discharge pipe 22. Therefore, there is a disadvantage that the load of the subsequent sludge treatment increases, and the sludge S attached to the wall surface of the sludge pit 21 gradually adheres, and the sludge pit 2
There was a drawback that it was not discharged from the sample No. 1.

Accordingly, the present invention has been made to solve the above-mentioned drawbacks, and an object of the present invention is to provide a sludge discharging apparatus capable of efficiently discharging sludge from a sedimentation basin.

[0007]

In order to achieve the above object, a sludge discharging apparatus according to the present invention discharges sludge deposited on the bottom of a sedimentation basin through a discharge pipe to the outside of the sedimentation basin. In the mud discharging apparatus, the discharge pipe is provided in a chamber partitioned by a plate having a hole, and an area of the hole is smaller than a cross-sectional area of the discharge pipe. Further, the chamber is composed of a sludge pit provided on a bottom surface of the sedimentation basin, and the plate is provided so as to cover an upper surface of the sludge pit. Furthermore, the chamber is formed by providing the plate between a side wall and a bottom surface of the sedimentation basin. And, on the bottom surface of the sedimentation basin, a scraper for collecting the sludge deposited on the bottom surface is provided. Further, the scraping machine is composed of a scraping plate that reciprocates on the bottom surface of the sedimentation basin, and the cross-sectional shape of the scraping plate is such that the scraping side of the sludge has a vertical plane shape, and the opposite side has an inclined plane shape. It is characterized by presenting.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view of a sludge discharging apparatus according to the present invention. The sedimentation basin a receives raw water from one end (left side in FIG. 1) via a raw water inflow pipe 1a, and treats treated water (supernatant water) via a treated water outflow pipe 1b provided at the other end.
In the form of a well-known cross-flow sedimentation basin configured to discharge water.

The bottom surface 2 of the sedimentation basin a is formed as a substantially horizontal flat surface, and on the raw water receiving side of the bottom surface 2 is formed a concave sludge pit (sludge) corresponding to the chamber of the present invention. Reservoir 3 is provided.

The scraping machine 4 is movably mounted on the bottom surface 2 of the sedimentation basin a, and is provided with a plurality of scraping plates 5a, 5a,. ing.
Have a length substantially equal to the width direction of the sedimentation basin a (the direction orthogonal to the direction in which the raw water flows), like the well-known reciprocating rake plate. The cross-sectional shape (parallel to the direction in which the raw water flows and in the vertical direction)
As shown in the figure, the sludge pit 3 side has a vertical plane shape, curves in the anti-screw direction side (opposite to the sludge pit 3 side), and the opposite side has a downwardly inclined surface shape. It has an upwardly curved triangular shape. The scraping plates 5a, 5a,... Are integrated via a connecting member 6 to constitute a mud collector 4.

The link mechanism 7 converts the rotational movement of the motor M into a reciprocating movement for the reciprocating movement of the scraper 4. The upper end of the connecting rod 7a of the link mechanism 7 The lower end of the connecting rod 7a is connected to a triangular conversion section 7b provided on the side wall of the sedimentation basin a.
Is rotatably connected to one end. The other end of the conversion part 7b is rotatably provided with respect to the side wall of the settling basin a, and the other end of the conversion part 7b is connected to the scraper 4 by the other end. A connecting rod 7c rotatably connected to the member 6 is provided rotatably. Therefore, when the connecting rod 7a moves up and down, the scraper 4 can reciprocate on the bottom surface 2 of the sedimentation basin a, as shown by arrows.

In FIG. 1, reference numeral 10 denotes a perforated plate corresponding to the plate of the present invention, which is provided so as to cover the upper surface of the sludge pit 3, that is, to be flush with the bottom surface 2. The details of a part of the perforated plate 10 are indicated by A indicated by a dashed line.

The holes 11, 11 provided in the perforated plate 10
Are arranged substantially evenly when the perforated plate 10 is viewed from the upper surface, and the sum of all the areas of the holes 11, 11 is determined by cutting off the discharge pipe 12 opening at the bottom of the sludge pit 3. It is determined to be smaller than the area. The number of the holes 11 is one or more or a plurality, and the number is appropriately determined according to the size of the perforated plate 10, the type of sludge, the properties of sludge, and the like. In any case, the total area of the holes 11 is determined to be smaller than the sectional area of the discharge pipe 12.

Therefore, when the valve V provided in the discharge pipe 12 is opened to start discharging the sludge from the sludge pit 3, a high flow velocity is generated in the holes 11, 11,.

When the raw water is supplied to the sedimentation basin a and the sedimentation and separation is performed and the sludge is deposited on the bottom surface 2 of the sludge discharging apparatus having the above-described structure, the motor M is driven, and the scraper 4 is connected via the link mechanism 7. Is reciprocated. The sludge accumulated on the bottom surface 2 by the reciprocation of the scraper 4 is moved to the sludge pit 3 side,
The moved sludge is introduced into the sludge pit 3 through the holes 11, 11,.

Next, when the valve V of the discharge pipe 12 is opened, the sludge in the sludge pit 3 is discharged through the discharge pipe 12 to the outside of the sedimentation basin.
11 generate a fast flow velocity in the sludge pit 3. Due to the flow rate, the sludge deposited on the perforated plate 10 is introduced so as to be efficiently extracted into the sludge pit 3, and the sludge in the sludge pit 3 does not stay in the sludge pit 3 due to the flow rate. It is discharged by the discharge pipe 12. When the scraping plate 5a of the scraping machine 4 slides on the perforated plate 10 as shown in FIG. 1, the sludge can be effectively dropped into the sludge pit 3.

When the discharge of the sludge in the sludge pit 3 is completed, the valve V is closed, and the operation of discharging the sludge is completed. The drive control of the scraper 4 and the valve V is automatically performed by a controller (not shown). The controller receives a detection signal from a sensor or the like provided in the sedimentation basin for detecting the accumulation state of sludge, if necessary. The end of sludge discharge
If a small amount of sludge remains in the sludge pit 3, only high-concentration sludge can be discharged out of the sedimentation basin a.

FIG. 2 shows the sludge pit 3 shown in FIG.
Is omitted, and a part of the sludge discharging apparatus that simplifies the sedimentation basin is shown.

The sedimentation basin a 'of this sludge discharging apparatus includes a perforated plate 1
Zero is provided between the bottom surface 2 of the sedimentation basin a 'and the side wall 2a of the sedimentation basin a'. Therefore, the bottom surface 2,
The space surrounded by the side wall 2a and the perforated plate 10 corresponds to the chamber of the present invention. Here, the perforated plate 10 is provided inclined, but may be provided in a convex or concave curved surface or in an inverted L-shape.

In the sedimentation basin a ', when the scraper 4 is driven, the sludge deposited on the bottom surface 2 is collected on the perforated plate 10 side. Then, the collected sludge is discharged to drain pipe 1
When the second valve V is opened, it is efficiently guided into the room accompanying the high flow velocity of the flow generated in the holes 11, 11,.
Further, it is discharged from the discharge pipe 12 to the outside of the sedimentation basin a '.

FIG. 3 shows an example in which another type of scraper 4 'is applied to the sedimentation basin a shown in FIG.

This scraping machine 4 'is provided with an arm 14a which hangs on a carriage 13 which reciprocates on the upper surface of the sedimentation basin a.
b is provided. When the truck 13 moves to the sludge pit 3 side, as shown in FIG. 3, the tip of the arm 14a is placed on the bottom surface 2 and when the truck 13 moves to the side opposite to the sludge pit 3, , The tip of the arm 14 a is lifted from the bottom surface 2.

FIG. 4 shows an example in which another type of scraper 4 ″ is applied to the sedimentation basin a shown in FIG.

The scraper 4 "is driven by a rotary drum 15 provided above the sedimentation basin a so that a bogie 17 having a scraper 16 reciprocates on the bottom surface of the sedimentation basin a. When the truck 17 moves to the sludge pit 3 side, the tip of the scraper 16 comes into contact with the bottom surface 2 as shown in FIG.
When the sled 7 moves to the side opposite to the sludge pit 3, the tip of the scraper 16 is lifted from the bottom surface 2.

[0025]

According to the present invention, there is provided a sludge discharging apparatus for discharging sludge deposited on the bottom of a sedimentation basin outside the sedimentation basin through a discharging pipe. Since the area of the hole is smaller than the cross-sectional area of the discharge pipe, high-density sludge is efficiently removed from the sedimentation basin by the fast flow velocity generated in the hole. Can be discharged. Therefore, the load of the subsequent sludge treatment can be reduced. Further, when the chamber is a sludge pit provided on the bottom surface of the sedimentation basin and the plate is provided so as to cover the upper surface of the sludge pit, the sludge can be efficiently discharged from the sludge pit. Further, when the chamber is formed by providing the plate between the side wall and the bottom surface of the sedimentation basin, the sedimentation basin can be simplified. And, when a scraper for scraping the sludge deposited on the bottom is provided on the bottom of the sedimentation basin, the sludge on the bottom can be effectively moved to the chamber side. Further, the scraping machine is a scraping plate that reciprocates on the bottom surface of the sedimentation basin, and the cross-sectional shape of the scraping plate is such that the sludge scraping side is vertical and the opposite side is inclined. At this time, the sludge accumulated in the sedimentation basin can be effectively moved toward the room.

[Brief description of the drawings]

FIG. 1 is a sectional view of a sludge discharging apparatus according to an embodiment of the present invention.

FIG. 2 is a sectional view of a part of a sludge discharging apparatus according to another embodiment of the present invention.

FIG. 3 is a cross-sectional view of another type of scraping machine.

FIG. 4 is a cross-sectional view of a still another type of scraping machine.

FIG. 5 is an explanatory diagram for explaining a state of discharging sludge from a conventional sludge pit.

[Explanation of symbols]

 1a Raw water inflow pipe 1b Treated water outflow pipe 2 Bottom surface 3 Sludge pit (chamber) 4, 4 ', 4 "Sludge collector 5a Scrape plate 6 Connecting member 7 Link mechanism 10 Perforated plate 11 Hole a, a' Settling basin 12 Discharge Pipe V valve

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Roche Applequist Sweden Gamla Scholixstegen 29B SE-430 40 Salo (72) Inventor Motohiko Ishino 1-1-1 Surugadai, Fujieda-shi, Shizuoka Prefecture

Claims (5)

[Claims] 1. A sludge discharging apparatus for discharging sludge deposited on the bottom of a sedimentation basin through a discharge pipe to the outside of the sedimentation basin, wherein the discharge pipe is provided in a chamber partitioned by a plate having a hole. Wherein the area of the hole is smaller than the cross-sectional area of the discharge pipe. 2. The sludge pit provided on the bottom of the sedimentation basin, wherein the plate is provided so as to cover an upper surface of the sludge pit. Sludge drainage device. 3. The sludge discharging apparatus according to claim 1, wherein the chamber is formed by providing the plate between a side wall and a bottom surface of the sedimentation basin. 4. The sludge discharging apparatus according to claim 1, wherein a scraper for scraping sludge deposited on the bottom is provided on a bottom surface of the sedimentation basin. 5. The scraping machine comprises a scraping plate reciprocating on the bottom surface of the sedimentation basin, and a cross-sectional shape of the scraping plate is such that a sludge scraping side has a vertical plane shape and the opposite side is inclined. The sludge discharging device according to claim 4, wherein the sludge discharging device has a planar shape.