KR102044386B1 - Chain Flight type Sludge Collector - Google Patents

Abstract

Disclosed is a chain flight type sludge collector. According to an embodiment of the present invention, the chain flight type sludge collector, which is provided in a settling tank to remove sludge from a lower part of the bottom and to remove scum from an upper part of a water surface, comprises: a driving unit provided in a settling tank, and including a driving sprocket; a body chain connected to a driving sprocket; an idle unit including a plurality of driven sprockets provided in the settling tank to be spaced apart from the driving sprocket of the driving unit to guide the body chain to be wound in a caterpillar shape to be circulated and rotated in the settling tank; and a plurality of flights installed at regular intervals in the body chain. The driving sprocket is provided at an upper part of the settling tank adjacent to a skimmer for discharging the scum.

Description

Chain Flight Type Sludge Collector

The present invention relates to a chain flighted sludge collector, and more particularly, to a high tensile non-metallic chain flighted sludge collector with less damage and improved efficiency.

Water purification plant, sewage treatment plant, wastewater treatment plant, etc. are installed with a sludge collector which collects the sludge that has sunk on the bottom of the sedimentation tank and discharges it to the outside, and pushes the upper scum to the outside.

Conventional chain flight type sludge collectors include a motor provided at the top of the settling tank to provide power, a drive sprocket powered by the motor and a plurality of driven idle sprockets, an orbital chain connecting the sprockets, Sludge at the bottom of the sedimentation tank, which is installed in the chain, scrapes up, and the upper scum includes a flying flight and a skimmer which discharges the scum pushed by the flight.

1 shows a part of a conventional chain flighted sludge collector, and as shown, a driving force F1 and a pushing force F2 simultaneously act on the drive shaft 1. The chain 2 circulates tightly with both forces acting uniformly during initial operation, but as time passes, the chain passes through the drive sprocket 3 as the tension of the chain is released due to the wear and elongation of the chain. Deflection occurs in the moving section. The deflection of the chain 2 leads to an imbalance in the left and right movement of the flight 4, which in turn can cause the chain 2 to deviate from the running track as the flight twists in a meander. In addition, since the flight 4 is also inclined forward, the scum removal efficiency may be deteriorated because the scum is not properly pushed out. Unexplained reference numeral 5 is a return rail.

Korean Patent Publication No. 10-2007-0008746 (2007.01.18.)

According to an embodiment of the present invention to provide a chain-flighted sludge collector with greatly improved efficiency.

According to an aspect of the present invention, a chain flight type sludge collector provided in the sedimentation tank to remove sludge from the bottom of the bottom and scum from the water surface, the drive unit is provided in the sedimentation tank and including a drive sprocket; A main body chain connected to the driving sprocket; An idle portion provided with a plurality of driven sprockets spaced apart from the driving sprockets of the driving unit in the settling tank to guide the main chain to be circulated and rotated in a crawler shape; And a plurality of flights installed at predetermined intervals on the main body chain, wherein the driving sprocket is provided at an upper portion of the settling tank adjacent to the skimmer from which the scum is discharged.

In addition, the driving sprocket may switch the moving direction of the main body chain from horizontal to vertical.

In addition, the driving sprocket may allow the main chain to be drawn in the horizontal direction after being drawn in the horizontal direction.

In addition, a return rail is provided at an upper portion of the settling tank, and the driving sprocket may change the moving direction of the main body chain from the upper side to the lower side by pulling the main body chain passing through the return rail.

In addition, one of the plurality of driven sprockets may include an upper return sprocket provided on an upper portion of the settling tank, and the pitch of the main body chain that is caught by the driving sprocket may be greater than the pitch of the main body chain that is caught by the upper- return sprocket.

The apparatus may further include a chain guide part for guiding the movement of the main body chain passing through the driving sprocket.

The chain guide part may include at least one of an inner chain guide for guiding the main body chain from the inside and an outer chain guide for guiding it from the outside.

The apparatus may further include a skimmer for driving the skimmer, wherein the skimmer may be driven by the driving sprocket.

In addition, the skimmer may include a cam bar provided on the drive shaft of the driving unit and a skimmer bar provided on the skimmer, and the cam bar and the skimmer bar may be cam-coupled to rotate in different directions.

In addition, one skimmer bar may be provided, and at least one cam bar may be provided to selectively contact the skimmer bar.

The skimmer may further include an elastic member for elastically supporting the original return of the skimmer.

Chain flight type sludge collector according to an embodiment of the present invention is driven directly connected to the conventional tail sprocket adjacent to the skimmer to prevent meandering and track departure due to sagging of the main chain in the upper return rail section as well as scum Removal efficiency can also be significantly increased.

In addition, the chain flight type sludge collector according to an embodiment of the present invention for the main body by switching the moving direction of the main body chain from the upper side of the sedimentation tank to the vertical direction of gravity in the horizontal direction in the drive sprocket provided adjacent to the skimmer Gravity and self-weight on the chain can be used to effectively reduce the load on the drive sprocket. In addition, as a result, the distance between the drive shaft and the skimmer is significantly shorter than in the prior art, so that the dead zone where scum accumulates is reduced, thereby improving scum deposit prevention and treatment quality.

In addition, the chain-flighted sludge collector according to the embodiment of the present invention can reduce the installation cost by connecting the skimmer with the drive shaft of the driving unit to remove scum even without a separate driving device.

In addition, the chain flight type sludge collector according to an embodiment of the present invention is connected to the skimmer and the drive shaft cam, wherein the number of cams can be easily adjusted by the operator to easily increase and decrease the operation of the skimmer.

1 is a view showing a conventional chain flight type sludge collector.
Figure 2 is a perspective view schematically showing a chain-flighted sludge collector according to an embodiment of the present invention.
Figure 3 is a side view showing a chain flight type sludge collector according to an embodiment of the present invention.
Figure 4 is an enlarged view showing a portion of the flight to move the rail of the chain flight type sludge collector according to an embodiment of the present invention.
5 to 7 are views for explaining the scum removal operation according to the sludge amount of the chain-flighted sludge collector according to an embodiment of the present invention.
8 is an enlarged view of a chain guide part of a chain-flighted sludge collector according to an embodiment of the present invention.
9 is an enlarged view illustrating a skimmer of a chain flight type sludge collector according to an exemplary embodiment of the present invention.
10 is a perspective view illustrating a part of a skimmer of a chain-fledged sludge collector according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as an example to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. Parts not related to the description are omitted in the drawings in order to clearly describe the present invention, the width, length, thickness, etc. of the components in the drawings may be exaggerated for convenience. Like numbers refer to like elements throughout.

2 is a partially exploded perspective view showing a chain flight type sludge collector according to an embodiment of the present invention, FIG. 3 is a side view of FIG. 2, and FIG. 4 is a partially enlarged perspective view of FIG. 2.

Referring to the drawings, the chain-flighted sludge collector according to the present embodiment is a drive unit 10 and the idle unit 15 and spaced apart from each other in the sedimentation tank 6 into which the raw water is introduced, the drive unit 10 and the idle unit 15 The main body chain 20 is wound in the form of an endless track and provided in a pair of left and right, and the flight 30 is installed at a predetermined interval on the main body chain 20 to collect sludge and scum, and the flight 30 Rail 40 to guide the movement of the.

Such a sludge collector uses a flight 30 provided in the main body chain 20 that rotates in one direction (clockwise in the drawing) in the settling tank 6, and the sludge accumulated on the bottom of the settling tank is provided in the discharge space 7 on one side of the bottom. Scum floating on the surface of the scum is discharged to the outside by pushing the flight 30 to the skimmer 8 located on the opposite side of the discharge space (7) to the outside.

As shown in the drawing, the driving unit 10 includes a driving motor 11, a driving chain 12 having one end connected to a rotation shaft of the driving motor 11, and a chain sprocket 13a having the other end of the driving chain 12 connected thereto. And, parallel to the chain sprocket 13a is provided in parallel and includes a drive sprocket 13 to which the main chain 20 is connected.

The idle part 15 includes a plurality of driven sprockets 16, 17, 18 spaced apart from the drive sprocket 13 of the drive unit 10 in the settling tank 6, together with the drive sprocket 13 for the main body. The chain 20 is connected in the form of a closed loop to allow the flight 30 to rotate in the settling tank 6.

The idle part 15 is provided in the lower part of the settling tank 6 adjacent to the skimmer 8 side, and the under-return plaque 16 which changes the main chain 20 from the rear to the front, and the lower part of the settling tank 6 An underhead sprocket 17 provided remotely from the skimmer 8 side to divert the main body chain 20 from bottom to top, and provided remotely from the skimmer 8 side at the top of the settling tank 6 ) Includes an up-perpendance plaque 18 for turning from front to back. A bottom rail 42 is positioned between the underreturn plaque 16 and the underhead sprocket 17, and a return rail 44 is positioned between the upper return plaque 18 and the driving sprocket 13.

The drive sprocket 13 of the drive unit 10 and the driven sprockets 16, 17, 18 of the idle unit 15 are left and right pairs so as to horizontally support the main body chain 20 provided in a pair of left and right. It is provided as, a pair of left and right sprockets (13, 16, 17, 18) are connected by one shaft.

The main chain 20 is provided by connecting a plurality of elliptical chain links 21 as shown in part in FIG. 4. The chain links 21 are provided with chain shafts 23 at both inner and outer edges of the elliptical shape, and a plurality of adjacent chain links 21 around the chain shaft 23 are arranged in two rows, inner and outer, outer and inner. Are arranged alternately and connected. Although not shown in detail, between the chain link 21 and the chain shaft 23 may be provided with a bush for preventing left and right rolling and relative rotation, the end of the chain shaft 23 to prevent the separation of the chain link 21 Link pins for the purpose may be provided.

In addition, the flight 30 is provided in a bar shape and both sides are supported by a pair of left and right main body chains 20, and a plurality of the main body chains 20 are installed at regular intervals and rotated while sludge in the lower part of the settling tank 6. Collect and push the scum from the top to push in one direction.

The flight 30 has upper and lower supports 31 and 32 forming upper and lower surfaces, and columns 33 forming side walls between the supports. The flight 30 is a structure for increasing the strength of the form up to a length of 10m, the supporter (not shown) may be provided as another reinforcing member therein. In addition, the flight 30 is installed on the main body chain 20 using the attachment 35, and slides on the rail 40 provided in the settling tank 6. Although not shown, the flight 30 sliding in contact with the rail 40 may further include a roller (not shown) to make rolling contact with the rail 40 to reduce frictional force during the movement.

The rail 40 is provided along the moving direction of the flight 30, and as shown in FIGS. 2 to 4, the bottom rail 42 and the upper side of the settling tank 6 provided at the bottom of the settling tank 6. It includes a return rail 44 provided in.

The bottom rail 42 is provided on the lower side of the main body chain 20, specifically, in a direction directly below the main body chain 20, and the return rail 44 is provided outside the side surface of the main body chain 20. This is because the return rail 44 is located outside the bottom rail 42 (or the main body chain 20) when the flight 30 is viewed from the front in the longitudinal direction, and the flight 30 is different from the main body chain 20. Is provided on the same side. In addition, the return rail 44 may be supported by a fixture (see 46 in FIG. 2) provided at a predetermined interval on the side wall of the settling tank 6.

On the other hand, the chain flight type sludge collector according to the present embodiment is a driven sprocket in which the driving unit 10 is located at the rear end of the moving direction, which is the main body of the conventional return rail 44 closest to the skimmer 8 (in this embodiment, the driving unit). Located on the upper side of the sprocket 13, the drive motor 11 and the drive sprocket 13 are connected through the drive chain 12. Therefore, the main body chain 20 passing through the return rail 44 is always pulled tightly by the tensile force of the driving sprocket 13, so that the main body chain 20 does not sag even if time elapses. Do not.

In addition, the chain flight type sludge collector of the present embodiment, in which the driving unit 10 is disposed on the sprocket 13 above the settling tank adjacent to the skimmer 8, is compared with the conventional sludge collector shown in FIG. Since the sum of the interior angles of the three sections of A3 stems from 320 degrees to 270 degrees, the driving sprocket 13 and the main body chain 20 have more contact surfaces. For example, assuming that one pitch uses a main body chain 20 of a constant size, the number of pitches of the main body chain 20 that is caught by the up-perpendance plaque 18 is 3.5 in both the present embodiment and the prior art. The pitch of the main chain 20 for the sprocket 13 is 4.5 in the present embodiment according to the inclination of the chain, and a difference occurs to 1.5 in the related art. Therefore, as the pitch is increased, the main body chain 20 is more caught by the driving sprocket 13, so that the possibility of the chain breaking is relatively low.

In addition, the chain flight type sludge collector according to the present embodiment is substantially perpendicular to the drawing direction of the main body chain 20 drawn in the horizontal direction because the driving sprocket 13 contacts the main body chain 20 and the 4.5 pitch. You can switch to the direction. Since the change in the natural direction of gravity of the main body chain 20 can use gravity (including self-weight) acting on the main body chain 20, the tensile load applied to the main body chain 20 can be reduced. have. When the driving sprocket is located in the uppertomic sprocket 18 as in the related art, in addition to the force for pulling the flight (F1 in FIG. 1), the force for pushing the flight (F2 in FIG. 1) and the static frictional force of the flight are also applied to the driving unit 10. Therefore, the wear amount of the drive sprocket 13 and the main body chain 20 is relatively large compared to the embodiment of the present invention, the life of the parts can not be shortened.

5 to 7 are views for explaining scum removal efficiency according to the amount of sludge in the chain flight type sludge collector according to the present embodiment. 5 shows when the sludge amount is low load, FIG. 6 shows when the sludge amount is heavy load, and FIG. 7 shows when the sludge amount is high load. Prior to the description, the amount of scum is generally proportional to the amount of lower sludge.

Referring to the drawings, as shown in FIG. 5, since the sludge collector at a low load with a small amount of sludge has a small load required for operation, the main chain 20 moves in sliding contact with the return rail 44. Landing (rising section; L1) on the end side of the return rail 44 adjacent to the drive sprocket 13.

Therefore, as shown in an enlarged view of FIG. 5, the flight 30 moves while maintaining the upright state, and the scum S floating on the water surface is caught by the upper portion of the flight 30 in the upright state even though the amount is small. Can be induced stably to the side.

As shown in FIG. 6, the sludge collector at the heavy load in which the sludge is accumulated to some extent is larger than that of FIG. 4. Therefore, the main chain 20 for the main body chain 20 moving along the return rail 44 is a return rail ( In the middle of 44, the landing L2 takes place.

In addition, as shown in FIG. 7, the sludge collector at the time of high load with a large amount of sludge accumulated is very large, and the main body chain 20 moving along the return rail 44 is pulled tightly. Landing L3 takes place from the beginning of the return rail 44.

Accordingly, as shown in FIGS. 5 to 7, the height of the main body chain 20 gradually increases according to the amount of load when the main body chain 20 moves along the return rail 44, which is the main body according to the amount of scum that increases in proportion to the amount of sludge. Since the height of the flight 30 of the solution chain 20 may also be increased, the removal efficiency may be greatly increased by guiding the scum S floating on the water to the skimmer. If the height of the flight 30 is low when the amount of scum is large, for example, if the body chain 20 always moves along the return rail 44 as in the related art, the removal efficiency may decrease because the scum cannot be pushed to the skimmer side. There is nothing else.

In addition, although not described in detail, the main chain 20 moving toward the driving sprocket 13 adjacent to the skimmer 8 may have a landing angle depending on the amount of sludge, and thus, may be used as a sensor (not shown). If detected, the amount of sludge in the sedimentation tank that cannot be determined with the naked eye can be easily identified.

8 is an enlarged view of a part of the chain-flighted sludge collector according to the present embodiment. Referring to the drawings, a chain guide for guiding the vertical direction of the main chain 20 in the exit side of the driving sprocket 13 is shown. The unit 50 may be provided.

The chain guide part 50 may include an inner chain guide 52 and an outer chain guide 54. The inner chain guide 52 is provided inside the main body chain 20 in a closed loop shape when viewed from the side, and is provided in a bar shape extending in a vertical direction to the inner wall of the settling tank 6.

The outer chain guide 54 is provided outside the main body chain 20 in a closed loop shape when viewed from the side, and may be provided in an inner wall of the settling tank 6 in a convex arc shape toward the main body chain 20. have.

When the inner chain guide 52 and the outer chain guide 54 move the body chain 20 abnormally, the inner chain guide 20 and the outer chain come into contact with the chain link 21 and the flight 30 while the main chain 20 Guide to stable movement in the direction of gravity.

9 is an enlarged view of a skimmer portion of the chain-flighted sludge collector according to the present embodiment, and FIG. 10 is a partial perspective view of the skimmer portion.

Referring to the drawings, the skimmer 60 may include a cam bar 61 provided on the drive shaft 14 of the driving unit 10 and a skimmer bar 63 provided on the skimmer 8.

At least one cam bar 61 may be provided on the driving shaft 14. For example, if only one cam bar 61 is provided on the drive shaft 14, the skimmer 8 operates once every 360 degrees, and when two cambars 61 are provided, the skimmer 8 may be provided at intervals of 180 degrees to operate twice at one rotation. (See FIG. 10). Similarly, when three cam bars 61 are provided on the drive shaft 14, the cambars 61 may be provided at intervals of 120 degrees to operate three times in one rotation. The cam roller 62 may be provided at the end of the cam bar 61. In addition, the cam bars 61 may be provided at both ends of the drive shaft 14, respectively. Conventional skimmer 8 has a structure provided on one side of the sedimentation tank because the drive unit for operation is provided separately from the chain drive unit, the cam bar 61 of the present embodiment can be easily installed on both sides of the drive shaft 14 torsion The damage of the skimmer 8 by this can be prevented effectively.

The skimmer bar 63 is provided to rotate together with the skimmer 8 and protrudes into the skimmer 8 so as to selectively contact the cam bar 61. The cam bar 61 and the skimmer bar 63 are provided to rotate in different directions. For example, since the cam bar 61 rotates clockwise in the same direction as the rotation direction of the main body chain 20 as shown, the skimmer bar 63 rotates counterclockwise when it comes in contact with the cam bar 61. It is provided in the rear end of the rotation direction of 61. Therefore, the scum moving by the flight 30 from the left side to the right side of the figure may be discharged to the outside through the scum inlet 8a of the skimmer 8 which rotates from the right side to the left side. A skimmer roller 64 is provided at the end of the skimmer bar 63 to make a rolling contact with the cam roller 62 of the cam bar 61.

On the other hand, the skimmer 60 may further include an elastic member 65 provided in the settling tank 6 to elastically support the original return of the skimmer 8. The elastic member 65 may include a spring supported at one side of the fixed end 66 provided in the settling tank 6 and supported at the other end of the link bar 67 protruding from the skimmer 8. The link bar 67 has elastic restoring force in the clockwise direction.

Then, the operation of the chain flight type sludge collector according to the present embodiment having the configuration as described above will be described.

When power is applied, the main body chain 20 is installed in an infinite track while the driving sprocket 13 and the plurality of driven sprockets 16, 17, and 18, which are connected to the driving motor 11 and the driving chain 12, are rotated. This rotation rotates, and the flight 30 removes sludge and scum while circulating the bottom and the water surface of the settling tank 6 by the rotational drive of the main body chain 20.

Chain flight type sludge collector according to the present embodiment because the chain for the main body 20 is passed by the return rail 44 while being pulled by the drive sprocket 13 of the upper part of the settling tank closest to the skimmer 8, the uppertoile sprocket ( It is possible to effectively prevent the chain from sagging in the A section (see FIG. 3) between the 18) and the drive sprocket 13.

In addition, the chain flight type sludge collector according to the present embodiment, in the drive sprocket 13 in which the main body chain 20 is provided adjacent to the skimmer 8, moves the main chain in the lower direction from the top of the settling tank 6, specifically, By switching from the horizontal direction to the vertical direction, the load applied to the driving sprocket can be effectively reduced by using gravity and self-weight acting on the main body chain 20. In addition, since the interval between the drive shaft 14 and the skimmer 8 is shorter than in the related art, the dead zone in which the scum S accumulates is reduced, thereby preventing the accumulation of scum and improving the treatment water quality.

In addition, since the chain flight type sludge collector according to the embodiment of the present invention connects the skimmer 8 to the cam by using the drive shaft 14 and the skimmer 60 of the drive unit 10, the main body only by the drive unit 10. Since the molten metal 20 and the skimmer 8 can be operated simultaneously, the installation cost can be reduced.

6. Sedimentation tank 10. Driving part
11. Driving motor 12. Driving chain
13 .. Driving sprocket 15. Children part
16..underreturn plaque 17..underhead sprocket
18..Upper-Return Sprocket 20..Main Chain
30.Flight 40.Rail
42.bottom rail 44.return rail
50. Chain guide 52. Inner chain guide
54. Outer Chain Guide 60. Skimmer
61..Camba 63.Skimmer Bar
65. Elastic member 67. Link bar

Claims (12)

In the chain flight type sludge collector provided in the sedimentation tank to remove sludge at the bottom of the bottom and scum at the top of the water,
A driving unit provided in the settling tank and including a driving sprocket;
A main body chain connected to the driving sprocket;
An idle portion provided with a plurality of driven sprockets spaced apart from the driving sprocket of the driving unit in the settling tank to guide the main chain to be circulated in a crawler shape to circulate and rotate the settling tank; And
And a plurality of flights installed at predetermined intervals on the main body chain.
The driving sprocket is provided on the settling tank adjacent to the skimmer discharge scum,
Further comprising a skimmer for driving the skimmer,
The skimmer portion is driven by the drive sprocket, and includes a cam bar provided on the drive shaft of the drive unit, and a skimmer bar provided on the skimmer.
The cam bar and skimmer bar is a chain-flighted sludge collector for cam coupling to rotate in different directions. The method of claim 1,
The drive sprocket is a chain flight type sludge collector for changing the direction of movement of the main chain for the horizontal. The method of claim 1,
The drive sprocket is a chain flight type sludge collector for the main chain is drawn in the horizontal direction and then drawn out in the direction of gravity. The method of claim 1,
A return rail is provided at the top of the settling tank,
The drive sprocket is a chain flight type sludge collector for changing the direction of movement of the main body chain from the top to the bottom by pulling the chain for the body passing through the return rail. The method of claim 1,
One of the plurality of driven sprockets includes an upturnance plaque provided on an upper portion of the settling tank,
The chain flight type sludge collector of which the pitch of the main body chain is caught by the drive sprocket is larger than the pitch of the main body chain is caught by the upper- tance sprocket. The method according to any one of claims 1 to 5,
And a chain guide part for guiding the movement of the main body chain passing through the drive sprocket. The method of claim 6,
The chain guide portion chain flight type sludge collector comprising at least one of the inner chain guide for guiding the chain for the body from the inside and the outer chain guide for guiding from the outside. delete delete The method of claim 1,
The skimmer bar is provided with one,
At least one cam bar is provided in the chain flight type sludge collector selectively contact with the skimmer. The method of claim 1,
The skimmer unit further comprises an elastic member for elastically supporting the original return of the skimmer. delete

Images