KR20020010466A - Decanter - Google Patents

Abstract

PURPOSE: Provided is a decanter for selectively discharging supernatant water in an SBR(sequencing batch reactor) process. The decanter is characterized in that only supernatant water is discharged without discharging of scum. CONSTITUTION: The decanter comprises the following parts: several guard rails(20) installed vertically in the SBR; a floating tank(30) for moving up and down; a cylinder part(40) equipped with the floating tank(30); a piston composed of a piston head and connecting means; a pump(60) for supplying pressure air to the cylinder part(40); a solenoid valve for moving the piston by discharging air of the cylinder part(40); a pipe(80) for discharging treated water; and a control panel(90) for control the solenoid valve.

Description

Treatment Water Discharge Device {Decanter}

The present invention is a device for discharging treated water from a sewage treatment plant or a wastewater treatment plant of a sequencing batch reactor (SBR) method, in particular, a process for discharging only the symbolic water under a certain water in the discharge process of the continuous batch reactor process. It relates to a water discharge device.

Most of the conventional discharge device has a disadvantage, such as large size, insufficient device for preventing scum leakage of the surface layer, and consumes a lot of power to operate the discharge device.

Compared with the standard activated sludge method, the continuous batch reactor method has the advantages of simple structure, high treatment efficiency, and easy handling of load fluctuation because all the aeration, precipitation, and discharge are performed in a single reactor.

Aeration, sedimentation, and discharge are all made by preset time distribution, for example, it can be divided into 4 hours of aeration, 1 hour of precipitation, and 1 hour of subsequent discharge.

Such discharge devices are commonly referred to as decanters.

Conventional treatment water discharge devices are mostly developed in foreign countries and introduced in Korea, or they use some modified foreign technology, and are floating decanters of A company, floating decanters of O company, and screw actuator type decanters of I company. Ruins, C company's moving arm decanter, K company's weir type decanter.

These decanters meet the original purpose of 'treatment of discharged water' but are very large and incomplete in terms of footprint, installation and power costs.

Decanter which floats on the surface of the water and discharges the treated water is a product of A company and O company, and these products use the electric valve 170 to open and close the discharge pipe 160.

The electric valve 170 is located on the outer wall of the continuous batch reactor 110, below the water level, and the floating tank 120 is merely a means for collecting surface water.

This characteristic is the same as the product of the company A company also uses the electric valve 170 to open and close the discharge pipe 160.

The greatest danger of the electric valve 170 is that untreated water and sludge flow out of the continuous batch reactor 110 at the time of open / close failure.

This is because a valve that is repeatedly opened and closed at least 3-4 times a day and 365 days a year, even if the valve is excellent in performance, may open or close as described above at any time due to electrical malfunction or wear of the sealing part.

Accordingly, the present invention has been made to solve the above problems, floating floating water discharge device to discharge only the symbolic water without the scum by moving the discharge pipe with a small force in the floating state on the water surface The purpose is to provide.

The present invention for achieving the above object, a plurality of guard rails vertically fixed to the inside of the continuous batch reactor, and the plurality of guard rails are installed to be movable in the vertical direction, floating on the water surface of the treated water A floating tank having a buoyancy force, a cylinder portion installed in the floating tank, a piston inserted slideably in the cylinder portion, an air pump that slides the piston by applying pressure to the cylinder portion, and is moved by the piston. It is possible to have a plurality of inlet holes are formed in the discharge pipe for introducing the treated water to the outside and the control panel to control the opening and closing of the solenoid valve.

Accordingly, the floating tank floats on the surface of the treated water and moves up and down together with the water level, and the piston of the cylinder moves up and down to move the discharge pipe up and down the water surface to discharge only the symbolic water to the outside without spilling of scum. .

1 is a schematic cross-sectional view showing a treatment water discharge device according to the prior art,

2 is a perspective view showing a treatment water discharge device according to the present invention;

3 is a cross-sectional view showing a discharge device of the present invention,

4 is a cross-sectional view showing an operating state of the piston of the present invention,

5 is a cross-sectional view showing a state of use of the present invention.

Explanation of symbols on the main parts of the drawings

10: continuous batch reactor 20: guard rail

30: floating tank 31: transfer bracket

32: through hole 33: sealing member

40: cylinder portion 41: cylinder hole

42: upper air hole 43: lower air hole

50: piston 51: piston head

52: connecting member 60: air pump

70: solenoid valve 80: discharge pipe

81: inflow hole 90: control panel

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a floating treatment water discharge device according to the invention, Figure 3 is a cross-sectional view showing the discharge pipe of the present invention, Figure 4 is a cross-sectional view showing the operating state of the piston of the present invention, Figure 5 is a view of the present invention It is sectional drawing which shows state of use.

According to the present invention as described above, the plurality of guard rails 20 fixedly installed in the interior of the continuous batch reactor 10 and the plurality of guard rails 20 are installed to be movable in the vertical direction and are treated with water. Floating tank 30 having buoyancy so as to float on the surface of the cylinder, and a cylinder portion formed on the upper portion of the floating tank 30 and a pair of air holes 41 formed through the side walls at the top and bottom of the inner wall, respectively 40 and a piston 50 consisting of a piston head 51 and a connecting member 52 slidably inserted into the cylinder part 40 and air for supplying compressed air to the cylinder part 40. The pump 60 is installed between the air holes 42 and 43 of the cylinder part 40 and the air pump 60 to be compressed through one air hole 42 or 43 of the cylinder part 40. While the air is applied to the cylinder portion 40, the cylinder portion 40 to the other air holes 42 or 43 Solenoid valve 70 for sliding the piston 50 by discharging the air, one end is coupled to the lower end of the piston 50 is movable by the piston 50 and one end of the plurality of inlet holes 81 ) Is formed and the other end is connected to the outside of the continuous batch reaction tank 10 to control the opening and closing of the discharge pipe 80, the solenoid valve 70 to enter and discharge the treated water to control the movement of the piston 50 It is a structure consisting of a control panel (90).

A characteristic of the present invention having the above structure is that the floating tank 30, the cylinder portion 40 and the piston 50 is provided, the piston 50 in the state in which the floating tank 30 is floating on the water surface By moving the upper end of the discharge pipe 80 selectively above and below the surface of the water so that it can be discharged only the symbolic water under the surface of the water without the scum.

The guard rails 20 are fixedly installed in the vertical direction in parallel with each other at regular intervals on the inner bottom surface of the continuous batch reactor 10.

The floating tank 30 is inserted into each of the four guard rails 20 by a transfer bracket 31 provided at four corners, and floats on the surface of the treated water filled in the continuous batch reactor 10. The guard rail 20 moves up and down in accordance with the height of the water surface and floats on the water surface of the treated water, and a through hole 32 is formed in the center so that the discharge pipe 80 is moved up and down.

The cylinder portion 40 is installed on the upper portion of the floating tank 30, the cylinder hole 41 is formed therein, the upper air hole 42 and the lower air hole through the side wall upper and lower portions, respectively 43 is formed.

The piston 50 is composed of a piston head 51 and the connecting member 52, is inserted into the cylinder hole 41 of the cylinder portion 40 so as to slide in the vertical direction.

The discharge pipe 80 is fixed to the lower end of the connecting member 52 of the piston 50 is moved by the piston 50, the plurality of inlet holes 81 at regular intervals along the outer peripheral surface at the top It is formed so that the treated water can flow in.

The air pump 60 is a device for supplying compressed air to the cylinder hole 41 through the solenoid valve 70.

The solenoid valve 70 is installed between the air holes 42 and 43 and the air pump 60 of the cylinder portion 40 to select compressed air in the upper air hole 42 and the lower air hole 43, respectively. It is a device that supplies or discharges each.

That is, when compressed air flows into the upper air hole 42 by the upper solenoid valve 70, the air of the cylinder hole 41 below the piston head 51 enters the lower air hole 43. 70, the piston head 51 moves downward, and on the contrary, when the compressed air flows into the lower air hole 43 by the solenoid valve 70 of the lower portion, the piston head (42) moves to the upper air hole 42. Air in the upper portion of the cylinder hole 41 of the 51 is discharged to the solenoid valve 70 of the upper portion is to move the piston head 51 upward.

The discharge pipe 80 is fixed to the lower end of the connecting member 52 of the piston 50 is inserted into the through hole 32 of the floating tank 30 to move together with the piston 50. .

Aeration, precipitation, and discharge in the continuous batch reactor 10 are all made by a predetermined time distribution, for example, it can be divided into 4 hours of aeration, 1 hour after precipitation, 1 hour after the discharge.

The present invention acts to discharge the treated water out of the reaction vessel by operating at the discharge time of the double, by using the pneumatic cylinder to open / close the discharge pipe (80) up and down the water surface by using the pneumatic cylinder without opening and closing the outlet risk of malfunction No weight and light weight.

For example, when installing the present invention of 100 tons / day processing scale, the spot area is about 0.5 m2, the weight of decanter is about 10 kg, lighter than the weight of one electric valve, and the discharge pipe 80 is operated by pneumatic cylinder. Compressed air is required because it moves the amount of air used is about 500ml when opening and closing once, which is a very economical decanter because the amount of power does not take 10W when using the air pump 60.

The principle of operation is as follows.

The control panel 90 is connected to the cylinder portion 40, and is composed of a timer, a level switch contact, an electric supply device for turning on / off two air solenoid valves 70 and the like.

First, when the predetermined time is reached by the timer, the upper air hole 42 is opened, and the compressed air sent from the air pump 60 is introduced into the cylinder hole 41 of the cylinder part 40 through the upper air hole 42. The pneumatic pressure causes the piston 50 to move downward.

4 (a) shows that the discharge pipe 80 moves downward to allow the treated water to flow into the inflow hole 81, and (b) the discharge pipe 80 moves upward to prevent the treated water from entering. It is a schematic sectional drawing which shows that it was avoided.

The discharge pipe 80 attached to the end of the piston 50 of the cylinder part 40 is a cylindrical tube made of stainless steel, and a plurality of elliptical inlet holes 81 through which water passes can be formed around the pipe, thereby forming a piston ( When the 50 is lowered, the discharge pipe 80 is also lowered into the water, and the treated water is introduced through the inlet hole 81 and discharge is started.

The discharge pipe 80 is formed to be flexible so that the treated water passes through the discharge pipe 80 and exits to the outside of the continuous batch reaction tank 10, and the water level of the continuous batch reaction tank 10 gradually decreases as the treated water is discharged.

When the water level is lowered and contacts the installed level switch, an electrical signal is generated and the signal is transmitted to the control panel 90.

The control panel 90 opens the solenoid valve 70 by this signal.

Compressed air by the air pump 60 flows into the lower air hole 43, and thus the cylinder portion 40 raises the piston 50 again.

As the piston 50 rises, the discharge pipe 80 is raised to the surface of the water and the discharge of the treated water is stopped.

With the switch operation attached to the piston 50, the timer of the control panel 90 starts again.

The floating tank 30 is the size of the bottom of the tank is submerged about 10-20 cm below the surface of the water, the scum layer is formed on the water surface because the discharged treated water is discharged only because water is located about 10-20 cm below the surface of the scum It is naturally prevented.

Both ends of the guard rail 20 are fixed to the upper and lower portions of the continuous batch reactor 10, which causes fluctuations in the water at the time of discharge or aeration of the treated water, at which time the floating tank 30 and the cylinder portion 40 ) Together with the left and right to prevent rocking.

On the other hand, the lower end of the floating tank 30 is provided with a sealing member 33 adjacent to the periphery of the inlet end is inserted into the discharge pipe 80, after the discharge pipe 80 is moved into the through hole 32 The water does not enter.

As described above, according to the floating treatment water discharge device according to the present invention, by selectively moving the discharge pipe up and down the water surface with a small force, it is possible to discharge only the symbolic water to the outside without the leakage of scum to reduce the facility cost and operating costs In addition to this, it is possible to expect the effect of import substitution, and can greatly contribute to environmental protection and water pollution prevention.

Claims (2)

A plurality of guard rails 20 fixedly installed vertically in the continuous batch reactor 10; A floating tank 30 installed on the plurality of guard rails 20 so as to be movable upward and downward, and having a buoyancy force to float on the surface of the treated water; It is formed on the upper portion of the floating tank 30, a cylinder hole 41 is formed therein, and a pair of air holes 42 and 43 are formed through the side walls at the upper and lower portions of the cylinder hole 41, respectively. A cylinder portion 40; A piston (50) formed of a piston head (51) and a connecting member (52) and slidably inserted into the cylinder portion (40); An air pump 60 for supplying compressed air to the cylinder portion 40; Installed between the air holes 42 and 43 of the cylinder portion 40 and the air pump 60, the compressed air through one air hole 42 or 43 of the cylinder portion 40 to the cylinder A solenoid valve 70 which applies the part 40 to the other air hole 43 or 42 and discharges the air of the cylinder part 40 to slide the piston 50; One end is coupled to the lower end of the piston 50 is movable by the piston 50, one end is formed with a plurality of inlet holes 81, the other end is connected to the outside of the continuous batch reactor (10) A discharge pipe 80 for introducing and discharging treated water; Floating treatment water discharge device consisting of; control panel 90 for controlling the opening and closing of the solenoid valve 70 to control the movement of the piston (50). The apparatus of claim 1, wherein the control panel (90) further includes a level switch and a timer for controlling the operation of the piston (50) according to the level of the treated water.