KR200296753Y1 - Air vent decanter - Google Patents

Abstract

The present invention relates to an air vent symbolic water discharge device, the purpose is to separate the discharged mixed symbolic water while preventing the floating material from entering the water surface.

According to the air vent symbol water discharge device according to the present invention for this purpose is installed in the SBR reactor, in the symbol water discharge device applied to the SBR method, the discharge device is appropriate hydraulic not to be discharged by disturbing the separated sludge An inlet nozzle securing an area, an exclusion plate installed on the outside of the inlet nozzle to exclude suspended substances suspended on the surface during initial acquisition, an inlet conduit extending in the longitudinal direction to accommodate the inlet nozzle, and the inlet conduit A curved pipe connecting the curved tube, the connection pipe extending and connected to the curved pipe, and fixed to one side of the reaction tank, and fastened to one side of the curved pipe with a rope, and the interconnected inflow and extension conduit is operated by a rope. It is a link operation means for swinging up and down.

Description

Air vent decanter {Air vent decanter}

The present invention relates to a symbol water discharge device, and more particularly, to an air vent symbol water discharge device for discharging the treated symbol water up and down while preventing suspended matter from entering the surface.

As a well-known example, the continuous batch activated sludge process (hereinafter referred to as SBR process) is a process of filling wastewater and wastewater into a reactor in the presence of a lower sludge so that inflow of sewage and treated water occurs. React process for treating wastewater and wastewater through aeration and agitation, Settle process for solid-liquid separation of symbol water at the top and sludge at the bottom, and discharge of the symbol water at the top out of the reactor Each unit process takes place in sequence in the single reaction tank. The sewage introduced in this five-stage process simultaneously undergoes biological oxidation of organics and removal of nitrogen and phosphorus.

On the other hand, the symbol water discharge device in the SBR method is to discharge the symbol water separated from the activated sludge in the sedimentation process, the structure method of the symbol water discharge device is generally divided into natural flow and pump type, mechanical, It is classified into valve type and pneumatic type. First, the mechanical force operates the lifting of the catchment unit by using a machine. Therefore, the discharge flow rate and the water level are determined by the lifting speed of the catchment part, and therefore, the discharge and the water level control are almost certainly performed, but the disadvantages and the power that require the power for the lifting and the mechanism are complicated The problem is that the consumption is large. In addition, the emission start level and the stop level include the complexity of the work to be considered by the water level backup.

The valve type and pneumatic type have a floating structure of the collecting part of the discharge device, and are lifted with the water level while floating on the water surface. Therefore, the water level varies according to the discharge flow rate, and the mechanism of the mechanism can be simplified by the structure in which the lift of the discharge device is automatically adjusted (self-control). On the other hand, since the function of the discharge flow rate is the basis, it is not easy to control the discharge flow rate due to the closing and entanglement of the catchment part affecting the discharge flow rate setting or the discharge function. In addition, in the case of the valve type, the collecting part is submerged in the water during the aeration process, so that the mixed liquid in the discharge device is mixed in the discharged water at the initial stage of the discharge process. Therefore, in the case of the valve type, the complexity of the work to consider the drainage of the initial discharge water occurs. Derived.

The pump type has an advantage in that the level difference between the drawing level and the discharge level in the reaction tank is not sufficient, but problems such as a lot of power loss for operating the pump and the complexity of discharge and maintenance of the initial discharge mixture are derived.

The present invention, as described above, has been devised to improve the various problems of the prior art, the purpose of which can be discharged in a fixed amount without discharging the sludge separated before the discharge of the symbol water, to obtain a separated clean treated water There is a catchment mechanism near the water surface, the discharge of the symbol water can be discharged according to the fluctuation of the water level, the discharge and discharge stop operation is performed smoothly, there is no malfunction or malfunction, and to provide a durable symbol water discharge device.

Further objects and effects of the present invention will become apparent from the following detailed description.

Figure 1a is showing the operation of the discharge device for explaining the air vent symbol water discharge device according to the present invention.

Figure 1b shows an air vent symbol water discharge apparatus according to the present invention.

Figure 2 shows a detailed view of the inlet conduit and the inlet nozzle applied to the air vent symbol water discharge device according to the present invention.

Figure 3 shows a detailed view of the air vent portion applied to the air vent symbol water discharge device according to the present invention.

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

10: SBR reactor 20: discharge device

21: Exclusion plate 23: Inlet conduit

24: curved pipe 25: connecting conduit

30: link operating means 31: twisted link

32: twisted link support 33: winch

The present invention for achieving the above object is installed in the SBR reactor, and in the symbol water discharge device applied to the SBR method, the discharge device is secured an appropriate hydraulic area so as not to be discharged by disturbing the separated sludge An inlet nozzle, an exclusion plate installed outside of the inlet nozzle to exclude suspended substances suspended on the surface during initial acquisition, an inlet conduit extending in a longitudinal direction to accommodate the inlet nozzle, and a predetermined angle of the inlet conduit A curved pipe connected to the curved pipe, a connecting conduit extending in connection with the curved pipe, and fixed to one side of the reaction tank, fastened to one side of the curved pipe by a rope, and the interconnected inflow and extension conduit pivoted up and down by the operation of the rope. It is achieved by the configuration of the link actuating means for exercising.

In addition, the link operation means, the twisted link is connected to the end of the connecting conduit, the discharge device is operatively operated by an external action, and a twisted link support for fixing the twisted link to the wall surface of the reactor; The discharge device is characterized in that it comprises a winch for transmitting power to pivot up and down the twisted link point.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Briefly attached to the accompanying drawings, Figure 1a is showing the operation of the discharge device for explaining the air vent symbol water discharge device according to the present invention, Figure 1b is an air vent symbol water discharge device according to the present invention It is shown, Figure 2 shows a detailed view of the inlet conduit and the incoming nozzle applied to the air vent symbol water discharge device according to the present invention, Figure 3 is an air vent applied to the air vent symbol water discharge device according to the present invention A detailed view of the part is shown.

Referring to Figures 1a, 1b, the air vent symbol water discharge apparatus 20 according to the present invention is installed in the SBR reaction tank (10).

First, the SBR reaction tank 10 is composed of the mixed liquid, that is, the suspended solids on the water surface, symbol water, sediment sludge and the boundary line, and the discharge device 20 for the purpose of discharging the symbol water. Since the device is always in contact with water or water, it is preferable to use a metal of stainless material.

The discharge device 20 for discharging the symbolic water is provided with an inlet nozzle 22 having an appropriate hydraulic area so as not to be discharged by disturbing the separated sludge, and an inlet conduit in which the inlet nozzle 22 is mounted and stored. (23) extends in the longitudinal direction. Meanwhile, the inlet nozzle 22 may open one side of the inlet conduit 23 to form a nozzle.

The inlet nozzle 22 serves to draw in and discharge the above symbol water, and the inlet conduit 23 serves to temporarily receive the drawn symbol water.

Further, the exclusion plate 21 is formed at the lower end of the inlet nozzle 22 to have the same size as that of the inlet nozzle 22 in the longitudinal direction.

The inlet conduit 23 is again connected vertically with the inlet conduit 23 formed in the longitudinal direction by a curved tube 24 bent at a predetermined angle, preferably 60-90 degrees.

The upper one side of the curved tube 24 is formed integrally with the inlet conduit 23 and the air vent 24a for discharging the accumulated air by gravity inside the curved tube 24, the operation will be described in detail in the description of the operation.

Subsequently, the curved pipe 24 is connected to the connecting conduit 25 and extends to a predetermined length to serve to flow the drawn symbol water into natural flow.

The end of the connection conduit 25 is finally connected to the intake pipe 40 in the twisted link 31, which is one component of the link operation means 30 for pivoting the interconnected inflow and connection conduits 23 and 25 up and down. It is discharged symbol water.

Therefore, the twisted link 31 is provided with a conventional link (not shown) that serves as a hinge so that the connection conduit 25 moves up and down. In addition, when the distal end of the intake pipe 40 and the distal end of the connection conduit 25 are horizontally positioned to discharge the symbolic water, the distal end and the distal end are installed in a structure without mutual clearance, and the twist link 31 ) Is preferably installed to be fixed by the twisted link support 32 on the side of the SBR reaction tank (10).

On the other hand, the link operation means 30 is a winch 33 for transmitting power to the twist link 31 to move up and down to the point is installed on the upper side of the SBR reaction tank 10, the winch 33 of the positive, speed A controllable motor 33a is mounted.

In addition, a part of the rope 34 is wound on the motor 33a, and the rope 34 is fixed to the hook A 24b provided on the upper side of the curved pipe 23, and is connected to each other. Therefore, when the motor 33a rotates, the rope 34 fixed to the hook A 24b operates up and down by the rotation of the motor 33a. On the other hand, the other rope 34 is fastened to the hook B (24c) in the event of an emergency, for example, in the event of an abnormality in the exclusion plate 21, the drawing nozzle 22, the curved pipe 24, a spare rope (34) for maintenance, such as repair )to be

Next, the air vent type supernatant discharge device and the effects thereof will be described in detail.

Again, referring to Figures 1a, 1b to 2, 3, the mixed liquid treated in the SBR reaction tank 10 is solid-liquid separated in the precipitation process is discharged in the discharge process.

Therefore, as described above in the electric configuration, the discharge device 20 for discharging the symbolic water mixed with various sludges and suspended solids is waiting at about 30 to 50 cm above the water surface and then discharges to the winch 33. The power is transmitted to loosen the rope 34.

Then, the discharge device 10 is lowered by the twisted link 31 as a point, and when the exclusion plate 21 is pushed in through the inlet nozzle 22 while pushing out the float on the water surface, the inlet conduit When 23 is submerged more than 20 ° to 30 cm below the water surface, winch 33 stops operation and waits at the stop position.

On the other hand, since the air vent 24a is installed in the curved pipe 23 bent at a predetermined angle, no air pocket is formed in the curved pipe 24, and the treated water is discharged along the connecting pipe as a natural flow depending on the locked depth. Will be.

That is, when the symbol water is discharged to the portion where the curved pipe 24 and the air vent 24a are connected, the treated water is no longer discharged. However, the other discharge device without the air vent 24a is discharged up to the surface of the water below 20 ?? 30cm by the siphon action to be discharged to the surface floating, discharge device 20 applied to the present invention This phenomenon does not occur due to the action of the air vent 24a.

If the symbol water is discharged to a predetermined depth by repeating the acquisition and discharge processes, the discharge speed is high because the head difference is large at the time of initial acquisition, but the rate is slower as the discharge process proceeds, resulting in an equal outflow of treated water. Since the process of obtaining and stopping is repeated several times in a short time, the symbol water is discharged evenly. The operation of the discharge device 20 applied to the present invention is to determine the water level of the water gauge PLC (hereinafter referred to as PLC) to automatically operate, and to discharge the flow rate by applying a motor 33a capable of speed control to the winch 33 Is controlled by PLC to discharge the treated water evenly through the entire discharge process. In addition, since the installation is simple, the weight is reduced and the winch 33 is used, thereby reducing the power.

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the scope of utility model claims, and is not limited by the specification text. Again, variations and modifications belonging to the equivalent scope of the utility model claims are all within the scope of the present invention.

As described in detail above, according to the air vent discharge device of the present invention, the sewage water separated from the activated sludge in the sedimentation process is not discharged by disturbing the sludge separated sedimentation, it can be discharged at a fixed oil quantity, separated In order to obtain the symbolic water, an inlet nozzle was installed near the surface of the water, and the discharge of the symbolic water was controlled by using the winch's operation stop or the variable speed winch so that the discharge of the symbol water could be discharged according to the fluctuation of the water level. Due to the simple structure of the air vent type discharge device, the initial investment cost is remarkably lowered, and the maintenance and repair are easy. In particular, the operation method and the length of the air vent are easily controlled to control the discharge of treated water, The precipitated activated sludge has an excellent effect of ensuring stable discharge water quality.

Claims (3)

In the super water discharge device installed in the SBR reactor, the SBR method is applied, The discharge device includes an inlet nozzle which secures an appropriate hydraulic area so as not to be discharged by disturbing the separated sludge; An exclusion plate installed outside the inlet nozzle to exclude suspended solids suspended on the surface during initial acquisition; An inlet conduit extending in the longitudinal direction to receive the inlet nozzle; A curved pipe connecting the inlet pipe at a predetermined angle; A connecting conduit extending in connection with the curved pipe; And a link operation means fixed to one side of the SBR reaction tank, and connected to one side of the curved pipe by a rope, and a link operating means for pivoting the inflow and extension conduit interconnected vertically by the operation of the rope. Drinking symbol water discharge device. The method of claim 1, The link operation means may include: a twist link connected to an end of the connection conduit, the discharge device being operable by an external action; A twist link support for fixing the twist link to the wall surface of the SBR reactor; Air vent type symbolic water discharge device characterized in that it comprises a winch for transmitting the power to the up and down movement of the discharge link to the twisted link. The method of claim 1, The air vent type symbol water discharge apparatus, characterized in that the air vent is installed on the upper side of the curved pipe to discharge the air mixed with the introduced symbol water.