KR200354671Y1 - Water treatment chapter's dual D.P suction sludge collecting plate - Google Patents

Abstract

The present invention allows the suction header to move from side to side while automatically opening and closing the suction pipe in the direction of sucking the sludge according to the moving direction, thereby allowing the suction of the sludge collected by the scraper to be discharged to the outside of the water treatment plant. In providing a collecting device.

The present invention for realizing the above object,

The suction header 30 is moved forward and backward along the rail 20 by the wire 40 connected to the driving unit 50 to suck the sludge collected by the scraper 60 during the movement, and the settling tank 10. In connecting the vane pipe 70 and the suction header 30 installed in the proper position in the horizontal direction to the flexible pipe 80 to discharge the sludge,

The suction header 30 connects the suction pipe 31 to the connecting pipe 33 so as to communicate with both sides of the header pipe changer 32, and centers the opening / closing edge 34 on the header pipe changer 32. The suction pipe 31 in the direction in which the wire 40 is pulled by installing the actuating piece 36 connected to the outside of the header tube changer 32 by the wire 40 while being installed on the shaft 35. Characterized in that configured to communicate with the flexible pipe (80) connected to the upper.

As such, the present invention allows the suction header to be automatically opened and closed while the suction header moves from side to side, so that the sludge collected by the scraper can be effectively sucked and discharged to improve efficiency. It is economical to reduce manufacturing cost because of its simple structure.

Description

Water treatment chapter's dual D.P suction sludge collecting plate}

The present invention relates to a sludge collection device of a water treatment plant, and more particularly, a suction header is a suction action by the pressure difference, and the suction header is transported back and forth along the rail to suck and settle the sludge and discharge it to the outside. A dual differential pressure suction sludge collection device.

The sludge collecting device of the conventional water treatment plant connects the suction header forward and backward along the rail installed on the bottom of the sedimentation basin and the discharge pipe installed in the sedimentation tank to be discharged to the outside by opening the valve installed in the discharge pipe so that the pressure in the sedimentation tank is opened. Due to the pressure difference with the outside caused by the suction nozzle of the suction header to suck the sludge located below it to be discharged to the outside.

However, as the suction header is a header pipe and the sludge cannot be scraped, the sludge located below the suction nozzle is sucked when the sludge is inhaled, so the efficiency of raw water loss and sludge treatment is not good, which affects the water treatment. There was a problem.

In view of these problems, the present applicant has proposed a sludge collection device of the water treatment plant of Utility Model Registration Application No. 2003-38436.

However, the above-mentioned application is characterized in that the scraper is collected in a separate collecting space when moving back and forth in a zigzag form, but the flexible pipe hose for transporting the sludge suctioned according to the moving direction is provided with a complicated configuration, making the manufacturing cost considerably high. There are problems such as not having a high and efficient collection function.

The present invention is proposed to solve the above problems, the suction header is collected by the scraper by moving the suction header to the left and right to improve the scraping function to collect the sludge according to the moving direction and to automatically open and close the suction pipe in the suction direction. It is to provide a dual differential pressure suction type sludge collection device of a water treatment plant to suck the sludge and discharge it to the outside.

The present invention for realizing the above object,

The suction header installed to collect the sludge collected by the scraper is moved forward and backward along the rail by the drive unit connected to connect with the wire, and the vane tube and the suction header installed in the sedimentation tank are connected with the flexible pipe so that the sludge is discharged to the outside. In that it is possible to discharge

The opening and closing edge is installed on the central axis in the header tube changer that forms the suction pipe communicating with both sides, and the working pipe connected to the wire on the outside of the header tube changer is installed on the central axis so that the suction pipe in the direction of pulling the wire is connected to the upper part The flexible header is characterized in that the configuration of the header header.

1 is a cross-sectional state diagram of the sedimentation basin showing the configuration of the present invention

2 is a plan view showing a configuration of the present invention

3 is an enlarged view of a suction header which is a main part of the present invention;

Figure 4a, b is an operation state diagram of the suction header portion in the present invention

Figure 5 is a side view of the suction header in the present invention

* Description of the symbols for the main parts of the drawings *

10: settler 20: rail

30: suction header 31: suction line

31a: suction hole 32: header tube changer

33: connector 34: opening and closing valve

35: central axis 36: operating piece

37: stop

40: wire 50: drive part

60: screpa 70: vanilla tube

80: flexible tube

Hereinafter, the preferred embodiment of the present invention in detail by the accompanying drawings as follows.

1 is a cross-sectional view on the front of the sedimentation basin showing the installation state of the sludge collector to which the present invention is installed, Figure 2 is a plan view showing the installation state of the sludge collector to which the present invention is applied,

First, look at the overall configuration of the sludge collection device,

When the wire 40 connected to the driving unit 50 located at the top of the settling tank 10 is hooked with the sheave 41 installed on the side wall of the settling tank 10, the wire 40 is connected to the suction header 30 in the pulling direction of the wire 40. The suction header 30 is moved along the rail 20 installed at the bottom, and the section header 30 is sucked into the sludge collected by the scraper 60 during the movement.

And it connects the vane pipe 70 and the suction header 30 installed in the horizontal position in the proper position in the settling tank 10 to the outside so as to discharge the sludge.

The valve 71 installed in the vane tube 70 is connected to the electric butterfly valve 90 installed at the top of the settling tank 10 by a spindle to adjust the valve 71 from the outside.

The drive unit 50 is to drive the drive winch 52, the wire 40 is driven by the reduction motor 51 to the forward and reverse.

Figure 3 is an enlarged view of the suction header portion of the present invention, Figure 4a, b is a partial cross-sectional view showing the opening and closing state of the suction header portion 30, looking at the core configuration of the present invention,

The suction pipe 31 of the long pipe is connected to both sides of the header pipe changer 32 by an elbow-shaped connecting pipe 33, respectively, and the opening and closing edge 34 of the header pipe changer 32 is the central axis ( 35) and the working piece 36 connected to the outside of the header tube changer 32 by the wire 40 is installed on the central shaft 35 so that the suction pipe 31 in the direction in which the wire 40 is pulled is upper part. It is configured to communicate with the flexible pipe (80) connected to.

The stop pieces 37 are formed on the header pipe changer 32 so that the opening and closing edges 34 are positioned so that the suction pipe 31 is opened in the direction in which the wire 40 is pulled.

The operating piece 36 is installed on both sides of the outer surface of the header pipe changer 32 and connected to the existing wire 40 by connecting to each working piece 36 with an auxiliary wire.

The suction pipe 31 is located in the longitudinal direction of the sedimentation tank 10 and the suction hole 31a formed on the bottom thereof gradually decreases the size of the suction hole 31a from the outside to the inside, thereby reducing the suction force. It is preferable to make the suction of the sludge completely evenly by increasing the value of.

5 is a side view of the suction header in the present invention,

Both suction pipes 31 are installed to be contacted by the guide rollers 38 before and after the rails 20 so as not to be rolled over while moving along the rails 20.

According to the present invention configured as described above, when the wire 40 moves in one direction by the operation of the driving unit 50, the suction header 30 connected to the wire 40 pulls the rail 20 in the direction in which the wire 40 is pulled. The ride is moved, and at the same time the screpa 60 located on the bottom of the suction head 30 to collect the sludge settled in the settling tank (10).

In this process, as shown in FIG. 4A, when the wire 40 is pulled in one direction, the opening and closing edge 33 connected to the central axis 35 while the operating piece 36 connected by the wire 40 is flipped in the pulling direction. The rotation is caught by the stop piece 37, the suction pipe 31 in the pulling direction is opened to communicate with the flexible pipe 80, and the communication tube 31 on the opposite side is blocked by the opening and closing edge 33.

In this state, the suction hole 31a formed on the bottom surface of the suction tube 31 in the moving direction is connected to the outside and the flexible tube 80 and the vane tube 70 so as to communicate with the outside. Since the suction force is generated by the pressure difference within the sludge collected by the scraper 60 in the moving direction is sucked through the suction hole (31a) is discharged to the outside through the flexible pipe 80 and the vane pipe (70).

In addition, even when the suction header 30 moves in the opposite direction as shown in FIG. The suction pipe 31 in the opposite pulling direction is opened in communication with the flexible pipe 80 so that the sludge collected while moving in the opposite direction is discharged to the outside.

As described above, the present invention allows the suction header to be automatically opened and closed while the suction header moves from side to side, so that the sludge collected by the scraper can be effectively sucked and discharged to improve efficiency. There is an economical effect to reduce the production cost because of the simple configuration.

Claims (4)

The suction header 30 is moved forward and backward along the rail 20 by the wire 40 connected to the driving unit 50 to suck the sludge collected by the scraper 60 during the movement, and the settling tank 10. In connecting the vane pipe 70 and the suction header 30 installed in the proper position in the horizontal direction to the flexible pipe 80 to discharge the sludge, The suction header 30, The suction pipe 31 is connected to both sides of the header pipe changer 32 via the connecting pipe 33, respectively, and the header tube changer 32 is provided with the opening and closing edge 34 on the central axis 35 while being installed. A flexible pipe in which a suction pipe 31 in a direction in which the wire 40 is pulled is connected to an upper part by installing an operation piece 36 connected to the outside of the pipe changer 32 by a wire 40 on the central axis 35. Dual differential pressure suction sludge collection device of the water treatment plant, characterized in that configured to communicate with. The method of claim 1, Dual differential pressure suction type sludge collection device of the water treatment plant, characterized in that for connecting the wire (40) to each working piece 36 by installing the working piece (36) on both sides of the outer surface of the header tube changer (32). The method of claim 1, Dual stop of the water treatment plant characterized in that the stop piece 37 is formed so that the opening and closing edge 34 is positioned so that the suction pipe 31 is opened in the direction in which the wire 40 is pulled to the header tube switch 32. Differential pressure suction sludge collector. The method of claim 1, Dual differential pressure suction sludge collection device of the water treatment plant, characterized in that the sludge is installed between the two suction pipes 31 to collect the sludge.