KR200426852Y1 - Discharge device for symbolic water treated in a continuous batch reactor - Google Patents

Abstract

Disclosed is a supernatant discharge device for a continuous batch reactor. The decanter body of the super water discharge device is designed to have a height in the range of 1 ~ 1.5m, and the inlet of the lower part is placed at 1 ~ 1.5m below the surface of the water, so the scum layer formed on the surface of the reactant is discharged when treating the high concentration organic wastewater. At the same time, there is no outflow of sludge deposited in the bottom of the reactor. The discharge pipe under the decanter body is made of two materials, soft PVC and metal fiber, to prevent deterioration and corrosion resistance by reactants operated at high temperature, and to prevent damage due to external impact. The inlet has a hinged blocking plate installed, which has the simplest structure and a sealed structure by its own load.When the siphon type suction force is generated due to the opening of the discharge pipe, the blocking plate is opened by the suction force that overcomes its own load to discharge the symbol water. . The buoyancy chamber can be observed by an external worker through a sight glass installed at the top.

Symbol water, discharge, reactor, discharge piping, blocking plate

Description

Decanting Unit of Supernatant Liquid treated in the Sequencing Batch Reactor}

1 is a front view of the symbol water discharge device main body of a continuous batch reactor of the present invention

2 is a plan view of FIG. 1

Figure 3 is a view showing the opening and closing state of the blocking plate in the inlet

Figure 4 is a front view of the device of the present invention installed in the reaction vessel

Figure 5 is a view of the side of the device of the present invention installed in the reactor

The present invention relates to an apparatus for discharging symbolic water treated in a continuous batch reactor, and more particularly, to discharge symbolic water that can be transported to the outside of the reactor using siphon (Siphon) suction power by purifying wastewater. Relates to a device.

The discharge devices currently commercialized in the batch reactors are complicated in structure or require power for control, such as an air vent type discharge device, a diaphragm type discharge device and an arm type. Has been adopted.

The air vent type discharge device is applied as a basic principle of operation in most devices, and by operating the solenoid valve opening and closing for the control of the device, in addition to the operation of the wastewater treatment device, an additional actuator and power supply are required. There is a problem of economic burden.

In addition, the arm-type discharge device operated by the power unit is operated in such a way that the discharge device is discharged in and out of the reaction tank, the discharge device descends to the limit depth at a speed determined by the power unit during the discharge process and discharges the symbol water. As a result, there is a problem that the economical burden is large as a complicated operation method and high cost. As a device that does not satisfy the demand for the identification of the driving condition and easy discharge structure for the supernatant discharge, it does not provide a driver-centered operation system.

Therefore, the structure and operation is simple and economical, there is little failure, it is possible to normal discharge even in an emergency, a stable discharge of the treated water and easy maintenance system has been required.

The present invention has been devised to solve the conventional problems as described above, the object of the present invention is to satisfy the stable symbol water outflow conditions with a simple structure, ease of operation and durability, ease of maintenance, stable operating conditions, It is to provide a symbolic water discharge device that can satisfy economic feasibility.

The symbol water discharge device of the continuous batch reactor according to the present invention for achieving the above object, having a height of 1 ~ 1.5mm, the decanter body having a buoyancy chamber formed in the inlet of the symbol water in the lower region; A blocking plate installed at the inlet by a hinge structure to open and close the inlet; A discharge pipe installed at a lower portion of the buoyancy chamber and manufactured with a double structure of a soft PVC material and a metal fiber; And a discharge valve which opens and closes the discharge pipe to open and close the blocking plate with or without a siphon suction function, and discharges the symbol water introduced through the inlet to the outside through the discharge pipe.

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

1 is a front view of the main body 100 of the symbol water discharge device (decanter) of the continuous batch reactor of the present invention, Figure 2 is a plan view of Figure 1, Figure 3 is the present invention installed in the inlet (6) Figure 4 is a view showing the opening and closing action of the blocking plate 5 of the simple structure, Figure 4 is a front view showing a state in which the decanter body 100 and the discharge pipe 24 is installed in the reactor 200, Figure 5 4 is a side view.

As shown, in the symbol water discharge device of the continuous batch reactor 200 according to the present invention, the decanter main body 100 is made so that the height is in the range of 1 ~ 1.5m to completely block the first chance of scum discharge do. That is, the symbol water discharge device of the continuous batch reactor 200 should not be accompanied by the scum layer formed at a depth of 0.5 to 1.5 meters from the surface of the reactant when treating high concentration organic wastewater, and at the same time sedimented under the reactor 200 The water position of the supernatant inlet 6 should be appropriate to prevent the sludge from flowing out and the discharge flow rate should be within the proper range. This is to prevent the microorganisms in the reaction tank 200 from leaking out, and stably discharge only purified symbol water to ensure the quality of treated water satisfying the discharge standard. To this end, the symbol water discharge device according to the present invention forms the height of the decanter main body 100 to 1 to 1.5 meters, and forms the inlet 6 at the lower portion of the decanter main body 100 so that the inlet 6 is 1 to the surface of the water. It is located below 1.5 meters.

Buoyancy chamber that can adjust the buoyancy to float on the appropriate height of the water surface according to the weight of the discharge valve 12 and the flexible PVC pipe (8) connected to the lower side of the reactor 200, the soft PVC pipe (8) It is connected coaxially with (4), the inlet (6) has a blocking plate (5) has a simple hinge structure with the siphon type suction force function in accordance with the opening and closing of the discharge valve (12) blocking plate (5) It is made to open and close.

The upper part of the main body 100 is provided with a see-through window 1 through which the inside of the main body 100 can be viewed. The discharged supernatant can be easily observed through the see-through window (1) whether the normal discharge and the treated state of the symbol water.

The discharge pipe 24 was wrapped around the outside of the pipe with a stainless steel metal fiber based on the soft PVC pipe (8) inside. The discharge pipe 24 manufactured as described above has a material characteristic of excellent flexibility. The discharge pipe 24 has a minimum radius of curvature of 500 mm or less and a commercial pressure has a condition of ⁵ Kg _f / cm ² or more. The flow rate in the discharge pipe 24 is to be operated around 1 ~ 1.5m / sec. The discharge pipe 24 is formed in an S-shape to allow the siphon discharge of the symbolic water, and is made of soft PVC as a whole, so that the up and down direction of the decanter body 100 can be moved. The opening and closing of the electric valve 12 which opens and closes the discharge pipe 24 is controlled by the electric valve controller 9.

Determination of the size of the inlet (6) is to determine the diameter so that the flow rate in the inlet (6) is 0.5 ~ 1.5m / sec or less to prevent the sedimentary solids to be accompanied by suction suction discharge.

On the other hand, the lifting rope ring 2 is provided above the decanter main body 100, and the lifting machine 10 is provided on the reaction tank 200 in which the decanter 100 is installed. With this structure, the decanter body 100 can be lifted by lifting the rope attached to the lifting rope ring 20 using the lifter 10.

In addition, a guide rail hook 3 is provided on an upper side of the decanter main body 100, and a guide rail for guiding the guide rail hook 3 in a vertical direction in the reaction tank 200 in which the decanter main body 100 is installed. (11) is provided. Accordingly, the decanter body 100 moves up and down along the guide rail 11 according to the surface height of the symbolic water, and moves up and down along the guide rail 11 even when being lifted by the lifting device 10. do.

Referring to the operation of the present invention configured as described above are as follows.

First, in a continuous batch reactor 200 which is operated in a circulation cycle of 'inflow → reaction → precipitation → discharge → pause → inflow', symbol water sequentially introduced is oxidized and purified by organic microorganisms in the reactor 200. The discharge valve 12 is maintained in a closed state during the oxidation and purification of the wastewater introduced into the reaction tank 200. Then, the symbol water in the discharge pipe 24 is stagnant and the suction pressure is extinguished, and the blocking plate 5 having a weight of 0.1 to 1 kg closes the inlet 6 by its own load.

In such a state, the organic matter oxidation and purification process is performed, and when the discharge valve 12 is opened at the stage of precipitation of the sludge, the power of the symbol water is discharged by the suction force of the siphon function in the discharge pipe 24. This causes suction of the blocking plate 5 of the inlet 6, thereby opening the blocking plate 5 by suction force that cancels the load of the blocking plate 5 and sucking the symbolic water through the discharge pipe 24. , Is discharged.

At this time, there is a possibility that the sludge is discharged at a high water level and at a low water level, that is, at a low level of the suction pressure, so that the open / close state of the discharge valve 12 is adjusted so as not to be discharged. Do.

Symbolic water discharge device according to the present invention has the following features.

Since the decanter main body 100 is manufactured to have a height in the range of 1 to 1.5 m, when treating a high concentration of organic wastewater, a scum layer of 0.5 to 1.5 meters or more formed on the surface of the reactant is not discharged at the same time without the accompanying reaction tank 200. The water position of the supernatant water inlet 6 is properly maintained so that the outflow of precipitated sludge does not occur, and also within the discharge flow rate proper range.

In addition, the waste water that has not been purified during the reaction should not be introduced into the discharge pipe 24. In the conventional method, a spring-supported check valve-type mixing blocker was designed to be installed at the inlet. However, this type of device, due to the complicated structure of the springs and blocking plates and narrow passages installed at the inlet during operation, causes a large amount of contaminants to become clogged during operation, which causes the discharge pipe to be blocked, the function of the valve, and the accumulation of contaminants Frequent maintenance is required. In addition, the check valve supported by the spring is cracked in the shielding device due to the impact of the water hammering phenomenon during opening and closing during operation, and frequent replacement is required due to the breakage of the spring. However, the inlet 6 of the main body 100 of the present apparatus has a hinged block 5, which has the simplest structure and a closed structure by its own load, and is opened and closed by suction force depending on whether it is discharged or not.

In addition, the exhaust pipe 24 is made of two materials, soft PVC and metal fibers, and prevents deterioration and corrosion by the reactants operated at a high temperature, and prevents damage due to external impact.

The inside of the buoyancy chamber 4 can be observed by an external worker through the viewing window 1.

In addition, since the lifting of the decanter body 100 is possible, the operator's convenience for maintenance is enhanced.

According to the present invention, as a device for discharging symbolic water treated in a continuous batch reactor, it satisfies stable symbolic water outflow conditions with a simple structure, convenience and durability of operation, simplicity of maintenance, stable operating conditions, economical efficiency, etc. This can satisfy the effect.

In the above described and illustrated with respect to the preferred embodiment of the present invention, the present invention is not limited to the specific embodiments described above and those skilled in the art will be able to implement a variety of modifications within the scope of the technical idea of the present invention, such a modified embodiment It will be included in the scope of the invention described in the utility model registration claims of the present invention.

Claims (4)

A decanter body having a height of 1 to 1.5 mm and having a buoyancy chamber having an inlet for symbolic water in a lower region thereof; A blocking plate installed at the inlet by a hinge structure to open and close the inlet; A discharge pipe installed at a lower portion of the buoyancy chamber and manufactured with a double structure of a soft PVC material and a metal fiber; And A discharge valve for opening and closing the discharge pipe to open and close the blocking plate with or without a siphon suction function, to discharge the symbol water introduced through the inlet to the outside through the discharge pipe; Symbolic water discharge device of a continuous batch reactor comprising a. The method of claim 1, The symbol water discharge device of the continuous batch reactor further comprises a; sight window which is installed on the decanter body to observe the buoyancy chamber. The method according to claim 1 or 2, The inlet is a symbol water discharge device of a continuous batch reactor characterized in that it has a size so that the flow rate of the symbol water discharged through it is 0.5 ~ 1.5m / sec. The method according to claim 1 or 2, Means for discharging the decanter body to the upper portion of the reaction vessel; Symbolic water discharge device of the continuous batch reactor further comprising a.

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