KR101490368B1 - Sludge collecting apparatus for 3 line chain flight type - Google Patents

Abstract

The present invention relates to a three-row chain flight type sludge collector, comprising: first to third chain conveyors having first to third chains rotated in a closed loop manner by a motor, the first to third chain conveyors being spaced apart from each other in the settling basin; And a plurality of flights connected to the first to third chains and having a unit size for collecting the sludge of the settler while being moved along the first to third chains, 2 chain and the second and third chains, and the flights connected to the first and second chains and the flights connected to the second and third chains are alternately arranged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sludge collecting apparatus for 3 line chain flight type,

The present invention relates to a three-row chain flight type sludge collector, and more particularly, to a three-row chain flight type sludge collector, in which a flight is arranged in a zigzag arrangement on three rows of chains, To a three-row chain flight type sludge collector capable of reducing manufacturing costs and simplifying the installation process as well as preventing warping or deformation of the flight.

In the case of a water treatment plant for water and wastewater treatment, the floatation step in the raw water flowing from the home or industrial site, the decomposition and precipitation step using the activated sludge, and the precipitation step, After the activation step, the supernatant is re-separated from the second settler, and the best isotope having passed through the third settling or filter paper is treated with chemicals and discharged to the stream.

In such a water treatment facility, sludge (sediment or foam) is generated during the removal of suspended solids and the decomposition of wastewater using activated sludge. A sludge collector is used to remove or collect such sludge.

There are various types of sludge collectors, but chain fly sludge collectors are most widely used.

The conventional chain flight type sludge collector has a structure in which a chain disposed on both sides is driven to collect sludge while a flight connected across the chain travels.

The chain flight sludge collector known so far is a two-row chain flight system having a two-row chain. The sludge is collected by moving the flight in two rows of chains spaced apart from each other.

On the other hand, in order to apply a two-row chain flight method in a large size sedimentation bag, the length of the flight must be long. In such a case, the flight may be warped or deflected due to the load.

Therefore, in a large sedimentation basin, two two-row chain flights may be used in parallel. However, when two two-row chain flights are used, the cost of production is increased due to an increase in the number of construction equipments. It is not easy to manufacture and install because it has to be custom made.

Therefore, it is possible to consider changing the existing two-row chain system to the three-row chain system as in Patent Application No. 10-1999-0045677.

However, in order to connect a flight to a three-row chain after arranging such a three-row chain, the flight has to be twice as large as the conventional one.

If the width of the sediment is 15 m, the length of the flight must be about 15 m. It is not easy to manufacture such a flight in the factory, And it is impossible to transfer long flights of up to 15m in length to the site in accordance with the Road Traffic Act. Therefore, it is necessary to improve the structure considering this point.

Korea Patent Office Application No. 10-1999-0045677

It is an object of the present invention to provide a method of installing a flight in a staggered arrangement of three rows on a chain, thereby eliminating the need to separately prepare a long flight, The present invention also provides a three-row chain flight type sludge collector capable of preventing warping and deformation of a flight as well as preventing the flight.

The object is achieved by first to third chain conveyors having first to third chains which are rotated in a closed loop by a motor, the first to third chain conveyors being spaced apart from each other in the settling basin; And a plurality of flights connected to the first to third chains and having a unit size for collecting the sludge of the settler while being moved along the first to third chains, 2 chain and the flights connected to the first and second chains and the flights connected to the second and third chains are alternately arranged. Is achieved by a heat chain type sludge collector.

The flight may have a hollow portion for absorbing a load.

The flight includes a pressure plate portion contacting the sludge to pressurize the sludge; A rear plate part spaced apart from the pressure plate part at one side of the pressure plate part to form the hollow part; And a plurality of extension plates extending rearward of the back plate.

Wherein a length of the pressing plate portion is longer than that of the back plate portion, the hollow portion is a plurality of hollow portions having different volumes, and a dummy plate portion having a length shorter than the extending plate portion is formed between the plurality of extending plate portions, Region. ≪ / RTI >

The filler block is formed by the extension plate portion and the dummy plate portion of the flight, and the filler block is formed by the extension plate portion and the dummy plate portion of the flight And can be inserted into the space and screwed into the flight.

According to the present invention, by arranging the flights in a zigzag arrangement on three rows of chains, it is possible to apply the existing unit flights only to a wider settling basin without the necessity of separately preparing a long flight, thereby reducing the manufacturing cost and simplifying the installation process So that it is possible to prevent warping or deformation of the flight.

FIG. 1 is a structural view of a settling basin provided with a chain flight type sludge collector according to an embodiment of the present invention; FIG.
Fig. 2 is an enlarged view of the main part of Fig. 1,
3 is a schematic perspective view of a chain flight type sludge collector,
4 is a plan view of the main part of Fig. 3,
5 is a perspective view of a flight,
Fig. 6 is a side view of Fig. 5,
7 is a view showing a state where a flight is coupled to the attachment.

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

FIG. 1 is a structural view of a settling basin provided with a chain flight type sludge collector according to an embodiment of the present invention, FIG. 2 is an enlarged view of the main part of FIG. 1, FIG. 3 is a schematic perspective view of a chain flight type sludge collector, Fig. 5 is a perspective view of the flight, Fig. 6 is a side view of Fig. 5, and Fig. 7 is a view of the state where the flight is coupled to the attachment.

Referring to these figures, the three-row chain flight type sludge collector of the present embodiment includes first to third chain conveyors 110a to 110c and first to third chain conveyors 110a to 110c And a plurality of flights 140a and 140b, respectively, which are connected to the sludge collecting sludge collecting sludge.

The first to third chain conveyors 110a to 110c are rotated by the motor 101 to move the flights 140a and 140b as shown in FIGS.

In this embodiment, three first to third chain conveyors 110a to 110c spaced apart from each other are disclosed, but the number of the first to third chain conveyors 110a to 110c may be four or more. This will be described later.

The structure of the first chain conveyor 120a will be described with reference to Figs. 1 and 2. Fig. The first chain conveyor 120a includes a first chain 120a that is rotated in the form of a closed loop by a motor 101 and a second chain 120b that is connected to the first chain 120a and receives rotational power from the motor 101, And a plurality of idler sprockets 108 connected to the first chain 120a at a position spaced apart from the drive sprocket 106 to impart tension to the first chain 120a, ).

As a result, the first chain conveyor 120a has a first chain 120a, a drive sprocket 106 and an idle sprocket 108, which can also be used for the second and third chain conveyors 120b and 120c same.

For reference, only the first to third chains 120a to 120c are distinguished from the first to third chain conveyors 110a to 110c, and the same reference numerals are used for the others.

The first to third chain conveyors 110a to 110c having the first to third chains 120a to 120c are spaced apart from each other and are rotatable by the motor 101, The drive sprockets 106 of the conveyors 110a to 110c are connected by the drive shaft 105 and the idler sprockets 108 are connected by the idle shaft 107. [ When the motor 101 is operated by this structure, the first to third chains 120a to 120c of the first to third chain conveyors 110a to 110c can be all rotated at the same speed and direction.

As will be described in detail below, the flights 140a and 140b are connected to the first to third chains 120a to 120c while being coupled to the attachment 130. [ The flights 140a and 140b rotate together with the first through third chains 120a through 120c to collect the sludge of the clarifier.

That is, when the motor 101 is operated, the rotational power from the motor 101 is transmitted to the drive sprocket 106 of the first to third chain conveyors 110a to 110c through the drive shaft 105, All of the first to third chains 120a to 120c on the chain conveyors 110a to 110c can be rotated.

Accordingly, the flights 140a and 140b connected to the first through third chains 120a through 120c are moved along the first through third chains 120a through 120c to move the sludge (foam or floating material) (103), and the sludge (precipitate, etc.) at the bottom of the sedimentation basin is collected by pushing it into the storage chamber (C1).

3 and 4, the flights 140a and 140b are arranged in the first and second chains 120a and 120b and the second and third chains 120b and 120c, respectively, The first and second chains 120a and 120b and the flights 140a and 140b connected to the second and third chains 120b and 120c are alternately arranged.

In other words, the first and second chains 120a and 120b and the flights 140a and 140b connected to the second and third chains 120b and 120c are arranged in a zigzag manner with equal intervals.

Actually, when a two-row chain, for example, two first and third chains 120a and 120c is used, a long flight (not shown) corresponding to the length of the first and third chains 120a and 120c, But there is a practical limitation to install a flight of infinitely long length as described above.

However, as in the present embodiment, the flights 140a and 140b are arranged in a zigzag manner so as not to be long enough to cover the entire channel width but to be divided into halves so as to cover only one side.

In other words, the flights 140a and 140b are connected to the first and second chains 120a and 120b and the second and third chains 120b and 120c, respectively, and the flights 140a and 140b are connected to each other The arrangement of the unit size flights 140a and 140b in the zigzag manner is advantageous in that the conventional unit size flights 140a and 140b can be used without causing a problem in the sludge collecting function.

Particularly, when this type of method is applied, it is possible to process a wide sedimentation paper which can reach 15m or more by increasing the number of the first to third chain conveyors 110a to 110c. In addition, as compared with the case where two rows of chains are used, one chain further supporting the flights is further disposed, so that the sludge load applied to the flights is absorbed, which is also advantageous in preventing the flight from being warped or deformed.

In the meantime, as to the structure of the flights 140a and 140b pushing the sludge according to the embodiment of the present invention, the flights 140a and 140b have hollow portions 141 and 142 for absorbing the load of the sludge.

Since the hollows 141 and 142 are formed in the flights 140a and 140b, even if the diarrhea is made long, the weight can be reduced and the desired strength can be maintained. At this time, the hollow portions 141 and 142 may be provided in a plurality of different volumes. As shown in the drawing, it is more preferable to arrange the lower hollow portion 142, in which the sludge load is more concentrated, of the hollow portions 141 and 142 to have a smaller volume, in order to prevent warping or deformation of the flight.

These flights 140a and 140b include a pressure plate portion 143 for pressing the sludge in contact with the sludge and a rear plate portion 143 for separating the pressure plate portion 143 from one side of the pressure plate portion 143 so as to form the hollow portions 141 and 142. [ (144) and a plurality of extension plate portions (145) extending rearward of the back plate portion (144).

The pressing plate portion 143, which pushes or pushes the sludge substantially, is longer than the back plate portion 144.

A dummy plate portion 146 is formed between the extension plate portions 145 so as to be shorter than the extension plate portion 145 and disposed in a boundary region between the hollow portions 141 and 142. The dummy plate portion 146 and the extending plate portion 145 are arranged side by side.

Such flights 140a and 140b can be manufactured by an extrusion or drawing method depending on the material, and can be continuously produced by applying an extrusion or drawing method.

On the other hand, the flights 140a and 140b are coupled to the first to third chains 120a, 120b, and 120c by the attachment 130. The attachment 130 is integrally formed with the first to third chains 120a, 120b, and 120c, and the filler block 131 is formed on one side. The filler block 131 of the attachment 130 is inserted into the space formed by the extension plate 145 and the dummy plate 146 of the flights 140a and 140b and is inserted into the flight shoes 132 and the screw- And is firmly fixed to the flight.

Therefore, according to the present embodiment having such a structure, it is possible to apply the present invention not only to the conventional unit flights 140a and 140b but also to the wider settling basin, without having to separately prepare a long flight (not shown) . In addition, it is possible to prevent warping and deformation by constructing the flight with a special structure.

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 invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

110a to 110c: first to third chain conveyors
120a to 120c: first to third chain 130: attachment
140a, 140b: Flight 141, 142:
143: pressure plate part 144: rear plate part
145: extension plate portion 146: dummy plate portion

Claims (5)

First to third chain conveyers having first to third chains rotated in a closed loop manner by a motor, the first to third chain conveyors being spaced apart from each other in a settling paper; And
And a plurality of flights connected to the first to third chains and having a unit size for collecting the sludge of the settler while being moved along the first to third chains,
Wherein the plurality of flights are connected to the first and second chains and the second and third chains, respectively, the flights connected to the first and second chains and the flights connected to the second and third chains, Alternately arranged,
Wherein the flight has a hollow portion for absorbing a load,
The flight includes:
A pressing plate portion contacting the sludge to pressurize the sludge;
A rear plate part spaced apart from the pressure plate part at one side of the pressure plate part to form the hollow part; And
And a plurality of elongated plate portions extending rearward of the back plate portion.
delete delete The method according to claim 1,
The length of the pressing plate portion is longer than that of the back plate portion,
The hollow portion is a plurality of hollow portions having different volumes,
And a dummy plate portion having a length shorter than the extension plate portion is disposed between the plurality of extension plate portions in a boundary region of the plurality of hollow portions.
5. The method of claim 4,
The flight is connected to the chain by an attachment integrally formed in the first to third chains,
Wherein the attachment includes a filler block at one side thereof and the filler block is inserted into a space defined by the extension plate portion and the dummy plate portion of the flight and is screwed to the flight.

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