KR100982757B1 - Seperating apparatus using centrifugal force about scum mixed water - Google Patents

Abstract

PURPOSE: A separating apparatus for separating scum with water is provided to prevent environmental contamination by compressing and drying the separated scum and discharging dried scum. CONSTITUTION: A transferring pipe(11) collects scum(100) generated on the water surface of a water processing unit and transfers the collected scum to a scum separating unit(10). A cyclone unit(20) separating the scum from water is installed on the end part of the transferring pipe. The water without the scum is stored in a water tank(40) in order to be transferred to a water draining pipe(30). A venture pipe compresses the separated scum. A heater(60) dries the compressed scum.

Description

Separating apparatus using centrifugal force about scum mixed water}

The present invention relates to a separator for separating scum mixed with water by centrifugal force, and more preferably, as a water treatment apparatus, installed in a storage tank such as a flocculation basin of a water purification plant and a sedimentation basin for purifying wastewater, etc. When the scum floating on the surface of the scum is collected by the scum collector and conveyed with water through the discharge pipe, the scum mixed with water is simply separated and then dried to be discharged.

In general, SCUM is a generic term for layers formed by floating of impurities on the surface of water, and floating on the surface of water in the water treatment process has caused many problems.

Thus, the method of separating and removing the scum generated on the water surface has been separated and removed by many methods.

However, since the separated scum is separated into a gel and stored in a sludge collection plant, there are many inconveniences in storing as well as environmental pollution.

Therefore, in order to remove the moisture contained in the scum, a separate drying device must be installed in the sludge collection station, which resulted in an increase in facility costs.

The present invention was created in order to solve the above problems, in the water treatment process, the scum that floats on the surface of the water to form a layer is collected and sent to the cyclone apparatus through a transfer pipe to separate the scum mixed with water, and separated The scum is intended to be passed through the venturi tube to compress the scum and to dry the residual moisture with a heater to be transferred to the sludge collection station.

Therefore, an object of the present invention is to keep the scum in a sludge collection station in a dry state so that it can be aesthetically clean to prevent pollution of the environment.

In addition, it aims to be able to clean the cyclone system with water stored in the tank using a backwash pump.

Referring to the configuration of the present invention having the above object with reference to the accompanying drawings as follows.

The present invention, as shown in Figure 1, the transport pipe 11 for collecting and transporting the scum generated on the water surface in the water treatment apparatus to the scum separator 10,

Cyclone device 20 for separating the water mixed with the scum 100 at the end of the transfer pipe 11,

A venturi tube installed in the lower portion of the cyclone apparatus 20 to compress the water tank tank 150 for storing the water separated from the cyclone apparatus 20 and transferred to the water discharge pipe 30 and the separated scum 100 ( 40),

The collected scum is characterized in that it comprises a heater 60 installed in the scum discharge tube 50 to dry the scum 100 is compressed in the venturi tube 40 and discharged through the scum discharge tube 41 centrifugal force It provides a separation device for separating.

In addition, the present invention is to separate the collected scum by centrifugal force, characterized in that the pair of compression rollers 80 is connected to the drive device 70 is driven to the discharge port 41 of the venturi tube 40 lower portion is driven. Provide a separation device.

In addition, the present invention provides a separator for separating the collected scum by centrifugal force, characterized in that the spiral groove 90 is formed on the inner surface of the venturi tube (40).

In addition, the present invention collected scum is characterized in that the conveyor belt 120 is configured in the lower portion of the scum discharge pipe 50 in order to transfer the scum 100 discharged to the scum discharge pipe 50 to the sludge collection station 110. It provides a separation device for separating the centrifugal force.

In addition, the present invention connects the back washing pipe 140 equipped with a back washing pump 130 to the water tank 150 and the cyclone apparatus 20 to backwash the cyclone apparatus 20 with water. Collected scum, characterized in that the shut-off valves 200, 210, 220, 230 are configured in the washing tube 140, water discharge pipe 30, scum discharge pipe 50, and the transfer pipe 11, respectively It provides a separation device for separating the centrifugal force.

The present invention by the configuration as described above is to remove the scum generated on the water surface to simply remove the water mixed in the scum with a cyclone device and at the same time the separated scum is compressed through a venturi tube and dried by a heater to be stored It is convenient and stored in a dry state, so there is no fear of contaminating the surrounding environment.

In addition, since the cyclone device can be cleaned using the separated water, waste of resources can be reduced.

In addition, the present invention is simple in structure and can be manufactured at low cost, can be used semi-permanently, and has a beautiful effect because it keeps scum in a dried state.

1 is a schematic cross-sectional view showing a state in which the scum of the present invention is separated.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment according to the present invention.

As shown in FIG. 1, the transfer pipe 11 for separating and transferring the scum 100 generated on the surface of the water is connected to the scum separator 10. Cyclone device 20 for separating the water mixed in the scum 100 is installed at the end of the transfer pipe (11). The cyclone device 20 is configured to separate the scum 100 and water by specific gravity by rotating centrifugal force to the strong wind therein.

A water tank 150 for discharging and storing the water separated by the cyclone apparatus 20 through the water discharge pipe 30 is formed. At this time, the tank tank 150 is configured by connecting the back washing pipe 140 separately from the cyclone apparatus 20. In addition, the back washing pipe 140 is provided with a back washing pump 130 to supply the water of the tank to the cyclone apparatus (20).

In addition, a venturi tube 40 for receiving and compressing the scum 100 separated from the cyclone apparatus 20 is installed at the lower portion of the cyclone apparatus 20. A pair of compression rollers 80 are installed at the outlet 41 of the venturi tube 40 to compress the scum 100 supplied to the venturi tube 40 and discharge the scum 100 to the scum discharge tube 50. The pair of compression rollers 80 are connected to the drive device 70 is configured to rotate inside each other. Therefore, the separated scum 100 is compressed while passing through a pair of compression rollers 80.

In this case, a spiral groove 90 is formed on the inner surface of the venturi tube 40 so that the scum 100 supplied to the venturi tube 40 can be smoothly discharged to the scum discharge port 41. Therefore, the scum 100 is discharged to the discharge port 41 quickly by the rotation of the centrifugal force.

Therefore, the conveyor belt 120 is installed at the lower portion of the venturi tube 40 to transfer the scum 100 compressed through the pair of compression rollers 80 to the sludge collection unit 110.

In addition, the back washing tube 140, the water discharge pipe 30, the scum discharge pipe 50, and the transfer pipe 11 may be shut off valves 200 and 210 so as to backwash the cyclone apparatus 20. 220 and 230 are respectively installed.

And, if necessary, the water level sensor 160 is installed in the tank 150 to measure the water level of the tank 150.

Hereinafter, the present invention will be described with respect to the separation device for separating the scum mixed with water by the centrifugal force, first, the scum 100 is separated by a scum separator for separating the scum 100 generated on the water surface. . The separated scum 100 is transferred through the transfer pipe 11 together with water and introduced into the cyclone apparatus 20. Water and scum introduced into the cyclone apparatus 20 are rotated by strong centrifugal force to separate water and scum. The separated water is introduced into and stored in the water tank 150 through the water discharge pipe 30 connected to the upper portion of the cyclone apparatus 20.

And the separated scum 100 is introduced into the venturi tube 40 installed in the lower portion of the cyclone apparatus 20 is discharged to the scum discharge pipe 50 through the discharge port 41. At this time, since the spiral groove 90 is formed on the inner surface of the venturi tube 40, the scum 100 introduced into the venturi tube 40 is rapidly discharged downward while being rotated by centrifugal force.

When the scum 100 is discharged into the discharge port 41, the scum discharge tube is compressed into the scum discharge pipe while being installed in the discharge port 41 and introduced into the pair of compression rollers 80 driven by the power of the driving device 70. Emissions through 50).

And the scum 100 discharged through the scum discharge pipe 50 is dried again through the heater 60 installed in the scum discharge pipe 50 to discharge the remaining moisture remaining in the scum 100.

The scum 100 in the dried state falls back to the conveyor belt 120 installed at the lower portion of the scum discharge pipe 50 and is transferred to the sludge collection plant 110.

When the cyclone device 20 is to be washed, the shutoff valve 200 and the water installed in the backwash pipe 140 connecting the valve ie, the water tank 150 and the cyclone device 20 are removed during scum transfer. Opening and closing the shut-off valve 210 installed in the discharge pipe 30, and shuts off the shut-off valves 220 and 230 respectively installed in the scum discharge pipe 50 and the transfer pipe 11 that is separated and discharged from the cyclone apparatus 20 and Then, when the backwash pump 130 installed in the backwashing pipe 140 is operated, the water in the tank 150 passes through the backwashing pipe 140 and passes through the interior of the cyclone apparatus 20. After cleaning, the water is introduced into the tank 150 through the water discharge pipe 30 and stored.

In addition, the water level sensor 160 installed in the tank 150 may measure the water in the tank 150 to be replenished through the water inlet pipe 170 when there is a shortage.

10. Scum separator 11. Transfer pipe
20. Cyclone device 30. Water discharge pipe
40. Venturi Tube 41. Outlet
50. Scum exhaust pipe 60. Heater
60. Drive 80. Compression Roller
90. Spiral groove 100. Scum
110. Sludge Collection Center 120. Conveyor Belt
130. Backwash Pump 140. Backwash Pipe
150, water tank 160. Water level sensor
170, water supply pipe 200, 210, 220, 230.

Claims (5)

Transfer pipe 11 for collecting and transporting the scum generated on the water surface in the water treatment device to the scum separator 10,
Cyclone device 20 for separating the water mixed with the scum 100 at the end of the transfer pipe 11,
The inner surface is installed in the lower portion of the cyclone apparatus 20 to compress the water tank (40) for storing the water is separated from the cyclone apparatus 20 is transferred to the water discharge pipe 30 and the separated scum (100) A venturi tube 40 having a spiral groove 90 formed therein;
A pair of compression rollers 80 connected to and driven by the driving device 70 at the outlet 41 of the venturi tube 40;
A heater 60 installed in the scum discharge pipe 50 to dry the scum 100 compressed by the compression roller 80 and discharged through the scum discharge pipe 50;
At the same time, including a conveyor belt 120 installed in the lower portion of the scum discharge pipe 50 to transfer the dried scum 100 discharged from the scum discharge pipe 50 to the sludge collection pipe 110,
In order to backwash the cyclone apparatus 20 with water, a backwashing pipe 140 equipped with a backwash pump 130 is connected to the water tank 150 and the cyclone apparatus 20, and the backwashing tube 140 And the collected scum with centrifugal force, characterized in that the shut-off valves 200, 210, 220, 230 are formed in the water discharge pipe 20, the scum discharge pipe 50, and the transfer pipe 11, respectively. Separator to separate. delete delete delete delete

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