KR20100011622A - Discharge apparatus of superiority water - Google Patents

Abstract

PURPOSE: A discharge apparatus of supernatant water is provided to block inflow of scum when wastewater is processed, and to discharge the supernatant water through an inclined surface with the siphon principle according to the opening of an electronic valve. CONSTITUTION: A discharge apparatus of supernatant water includes a decanter(110) located inside a reaction bath(10). The discharge apparatus of supernatant water includes a movement guiding part(120) moving the decanter up and down according to change of a water level. The movement guiding part includes a plurality of guide protrusions and a plurality of guide rails(122). A supernatant water discharge part includes a first discharge pipe(132) and a second discharge pipe(134). A control part(140) formed on the discharge apparatus includes an electronic valve(142).

Description

Discharge apparatus of superiority water

The present invention relates to a supernatant discharge device, and more particularly, to block scum inflow during wastewater treatment, and to discharge the supernatant after the treatment by the siphon principle. To a supernatant drainage system.

In general, wastewater treatment facilities purify wastewater by introducing sewage (sludge), which is generated after a biological or chemical reaction by introducing wastewater, and then draining treated water (supernatant). For example, wastewater flowing into the reactor is purged by operating an aeration pipe or the like (aeration) to nitrify and denitrify the sludge, and then discharge the supernatant collected thereon using a decanter. At this time, it is important that the decanter is positioned so that scum, ie, suspended solids, generated during the treatment of the waste water does not escape.

To this end, the Republic of Korea Patent Publication No. 1999-0084731 and Republic of Korea Patent Registration 10-0364110 in the installation of the air tube and diaphragm-type diaphragm, respectively, while treating the waste water by supplying air to the air tube and the diaphragm and scum and sewage When the sediment precipitates after the treatment, the air is supplied to the air tube and the diaphragm to recover the air and the treated water is discharged through the decanter.

However, this conventional prior art has a lot of difficulties in manufacturing because of its complicated structure, there is a problem in that the manufacturing cost becomes expensive.

The object of the present invention is to achieve a simple structure to make the economic cost cheaper, the scum is not introduced during the waste water treatment, and the supernatant water to be discharged beyond the overflow wear by the siphon principle when discharged the supernatant after treatment To provide a discharge device.

In order to achieve the above object, the present invention provides a supernatant discharge apparatus for discharging supernatant from the sewage after depositing a precipitate in a reaction tank of a wastewater treatment facility, wherein both outer walls are floated by a predetermined height above the surface of the supernatant. A buoyancy chamber formed with a predetermined inclined wall surface, the inlet and outlet formed in the lower portion by the buoyancy of the buoyancy chamber to be locked below the surface of the water and the upper portion of the inlet and outlet passages in contact with the inlet and outlet A decanter floating on the surface to be positioned above; The guide protrusions protruding from both sides of the decanter and the guide protrusions are coupled to the guide protrusions, and guide rails are installed vertically in the reactor to guide the decanter to move upward and downward in accordance with the change of the water level. A movement guide; The first discharge pipe coupled to the outlet and the end of the first discharge pipe which are made of a flexible material so as to move together along the decanter moved up and down by the movement guide part are installed to be in contact with the outside of the reaction tank; A supernatant water discharge part comprising two discharge pipes and providing a moving path for discharging the supernatant water in the reactor as an outlet through the inlet of the decanter; And installing the solenoid valve in the second discharge pipe of the supernatant discharge part so as to be openable and closed, and by using a siphon principle, the supernatant flows through the inflow passage. Characterized in that it comprises a control unit to be discharged through the outflow passage beyond.

The decanter is provided with a body to wrap at a predetermined interval to the outside of the buoyancy chamber, the inclined wall surface of the buoyancy chamber to form an inlet is provided with an inlet in the lower portion, the other wall is an outlet passage provided with an outlet at the bottom In addition to the above, it is characterized in that the upper portion of the inlet passage and the outlet passage to form a predetermined space that can be mutually in contact with each other.

The inclined wall surfaces formed on both side surfaces of the buoyancy chamber are formed to form an inclined surface of the upper and lower light beams, and the upper surface of the buoyancy chamber is formed to be inclined downward toward the outflow passage.

The present invention, by the above-mentioned means, by blocking the inflow of scum during the treatment of waste water, and by moving along the water level after treatment, it is easy to manufacture the decanter by discharging the supernatant by the siphon principle, and the price is low It can work.

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

1 is a view showing the configuration of a supernatant discharge device according to the present invention, Figure 2 is a view showing the supernatant discharge device shown in FIG.

As shown in the drawing, the supernatant discharge device according to the present invention is located in the reaction tank 10 of the wastewater treatment facility, and after the precipitate is precipitated, the supernatant water discharged thereon is discharged to the outside (treatment tank). 110). The decanter 110 is installed to float on the surface of the supernatant water to a certain height, the inlet 114a for introducing the supernatant water and the outlet 116a for outflowing the supernatant water is formed at the bottom, the inlet 114a And the outlet 116a is connected to the inlet passage 114 and the outlet passage 116 provided to the interior of the decanter 110. In addition, a buoyancy chamber 112 is provided to allow the decanter 110 to be further on the surface of the upper water by a certain height. The decanter 110 has a structure in which both outer walls form a predetermined inclined wall surface 112a, and the inlet 114a is formed under the inclined wall surface 112a.

The decanter 110 has an inlet port 114a and an outlet port 116a formed at the lower portion by the buoyancy of the buoyancy chamber 112 so as to be submerged below the surface of the decanter 110 and at the inlet port 114a and the outlet port 116a. The inflow passage 114 and the space passage 116 formed at the upper portion of the outflow passage 116 contacted are installed to float on the water surface of the supernatant so as to be positioned above the surface of the siphon according to whether to open or close the solenoid valve 142 described later. It is discharged beyond the overflow weir 102 of the space portion 118 by the principle of (siphon), the configuration of the decanter 110 will be described in detail with reference to FIGS. .

As shown in the drawings, the present invention includes a movement guide 120 for guiding the decanter 110 to move up and down according to the change of the water level of the upper water. The movement guide part 120 is coupled to the guide protrusion 119 and the guide protrusion 119 which are installed to protrude on both sides of the decanter 110, and a guide rail which is vertically installed inside the reactor 10. Consisting of 122.

By the guide rail 122 as described above, the decanter 110 may prevent left and right flow during aeration and agitation. That is, by coupling the guide rails 122 to the guide protrusions 119 protruding from both sides of the decanter 110, the decanter 110 facilitates the movement of the decanter 110 and the horizontal of the decanter 110. Maintenance and shaking can be prevented. In addition, the guide rail 122 may be manufactured to have a smooth structure without a bend to smoothly move up and down of the decanter 110, and may be firmly installed so that bending does not occur when the decanter 110 flows left and right. Should be. That is, the guide rail 122 may use a low-friction lylon material to smooth the vertical movement of the decanter 110.

As shown in the drawing, the present invention is installed to be moved together with the decanter 110 is moved up and down by the movement guide 120, the inlet 114a of the decanter 110 in the supernatant water in the reactor (10) It is provided with a supernatant discharge unit 130 to provide a moving path to be discharged to the outlet 116a through the (). The supernatant discharge unit 130 is coupled to the first discharge pipe 132 made of a flexible material to the outlet 116a to move along the decanter 110 is moved up and down, and the first discharge pipe 132 An end of the second discharge pipe 134 is connected to allow the discharge to the outside (treated water tank) of the reaction tank (10). To this end, the second discharge pipe 134 is installed to penetrate the reaction tank 10 and the treatment tank. In addition, the first discharge pipe 132 is easy to drain the upper water, it is good to use a material having a strong pressure resistance and wear resistance, and abundant flexibility.

As shown in the figure, the present invention includes a control unit 140 for allowing discharge through an over flow weir 102 located on the surface of the supernatant water by the siphon principle. The control unit 140 is provided to open and close the solenoid valve 142 to the second discharge pipe 134, according to the opening and closing of the solenoid valve 142 by the siphon (siphon) principle of the inlet ( The supernatant is discharged to the outlet 116a through 114a).

Figure 3 is a front view showing the configuration of the decanter provided in the supernatant discharge device according to the present invention, Figure 4 is a cross-sectional view taken along the line II of Figure 3, Figure 5 is a plan view of the decanter of Figure 3, Figure 6 It is a perspective view with a part cut | disconnected in order to demonstrate a structure to the decanter of a display.

As shown in the drawing, the decanter 110 provided in the supernatant discharge device according to the present invention by installing the body 111 to wrap at a predetermined interval to the outside of the buoyancy chamber 112, the inclination of the buoyancy chamber 112 An inflow passage 114 having an inlet 114a is formed at a lower portion of the wall surface 112a, and an outlet passage 116 having an outlet 116a is formed at the bottom of the other wall. The upper portion of the 114 and the outlet passage 116 is formed a predetermined space portion 118 that can be in contact with each other.

In particular, in the present invention, the inclined wall surfaces 112a formed on both side surfaces of the buoyancy chamber 112 may be formed to form inclined surfaces of upper and lower light beams, and the upper surface of the buoyancy chamber 112 may flow out. It is preferable to form a downward slope 112b toward the passage 116 side. By forming the inclined surface in this way, according to whether the solenoid valve 142 is opened or closed, the supernatant can be easily discharged beyond the overflow wear 102 by the siphon principle.

Reference numeral 111a denotes a see-through window, and the inside of the decanter 110 may be visually checked through the see-through window 111a, or the see-through window may be opened to clean the decanter.

The supernatant discharge device according to the present invention configured as described above, the supernatant flowing into the inlet 114a of the decanter 110 is formed in the decanter 110 by the siphon principle depending on whether the solenoid valve 142 is opened or closed. It is discharged through the outlet 116a and the first and second discharge pipes 132 and 134 beyond the overflow wear 102 of the space 118. That is, the decanter 110 floating on the water surface by a buoyancy of the buoyancy chamber 112 by a certain height is opened through the inlet 114a of the decanter 110 by the siphon principle when the solenoid valve 142 is opened. The supernatant flows into the inflow passage 114, and the supernatant introduced in this way is moved to the outflow passage 116 beyond the overflow ware 102 and discharged through the first and second discharge pipes 132 and 134 connected to the outlet 116a. do.

In this way, in order to discharge the supernatant water, the decanter 110 is installed to float at a predetermined height on the surface of the supernatant water so that the position of the inlet port 114a is locked below the surface of the supernatant water and the inlet passage connected to the inlet port 114a. Since the predetermined space portion 118 formed at the upper portion of the 114 is located above the water surface, the introduction of scum can be prevented. That is, it is possible to prevent the inflow of scum generated during the treatment of wastewater.

In addition, the present invention is the decanter 110 is moved along the water level of the supernatant, that is, the decanter 110 is moved up and down when the supernatant in the reaction tank 10 in accordance with the discharge of the supernatant, the decanter ( 110 moves along the guide rail 122 to allow the decanter 110 to move up and down while maintaining horizontality.

Such a supernatant discharge device according to the present invention is a natural drainage buoyancy decanter 110 by a float (float), the supernatant in the tank by the siphon differential pressure due to the discharge of the treated water in the replenishment water tank during discharge, the decanter 110 The most characteristic of the structure is discharged over the inclined surface of the, by this feature it can be blocked inlet of turbid liquid during aeration and stirring through the inlet (114a).

1 is a view showing the configuration of a supernatant discharge device according to the invention,

2 is a view showing the upper surface of the water discharge apparatus shown in Figure 1 from the side,

Figure 3 is a front view showing the configuration of the decanter provided in the supernatant discharge device according to the present invention,

4 is a cross-sectional view taken along the line I-I of FIG. 3;

5 is a plan view of the decanter of FIG. 3;

FIG. 6 is a perspective view of a part cut away to explain the configuration of the decanter shown in FIG. 3.

Explanation of symbols on the main parts of the drawings

110-Decanter 112-Buoyancy Chamber

112a-Sloped Wall 112b-Downward Slope

114-Inlet 114a-Inlet

116-Outlet 116a-Outlet

118-Space Department 120-Travel Guide

122-guide rail 130-supernatant outlet

132-1st discharge pipe 134-2nd discharge pipe

140-control unit 142-solenoid valve

Claims (3)

In the supernatant discharge apparatus for discharging sediment from the reaction tank of the wastewater treatment plant and then discharging the supernatant thereon, Both sides of the outer wall is provided with a buoyancy chamber formed with a predetermined inclined wall surface so as to float above the surface of the upper water, and the inlet and outlet formed in the lower portion by the buoyancy of the buoyancy chamber is locked to the bottom of the water A decanter floating on the water surface such that the upper portion of the inflow passage and the outflow passage in contact with the inlet and the outlet is positioned above the water surface; The guide protrusions protruding from both sides of the decanter and the guide protrusions are coupled to the guide protrusions, and guide rails are installed vertically in the reactor to guide the decanter to move upward and downward in accordance with the change of the water level. A movement guide; The first discharge pipe coupled to the outlet and the end of the first discharge pipe which are made of a flexible material so as to move together along the decanter moved up and down by the movement guide part are installed to be in contact with the outside of the reaction tank; A supernatant water discharge part comprising two discharge pipes and providing a moving path for discharging the supernatant water in the reactor as an outlet through the inlet of the decanter; And By installing the solenoid valve to be opened and closed in the second discharge pipe of the supernatant water discharge part, the upper water flows through the inflow passage by the siphon principle according to whether the solenoid valve is opened or closed. The supernatant discharge device, characterized in that it comprises a control unit to flow through the outflow passage beyond. According to claim 1, The decanter is provided with a body to wrap at a predetermined interval to the outside of the buoyancy chamber, the inclined wall surface of the buoyancy chamber to form an inlet is provided with an inlet at the bottom, the other wall at the bottom A supernatant discharge device characterized in that it forms an outlet passage provided with an outlet and a predetermined space portion that can be in communication with each other on the upper portion of the inlet passage and the outlet passage. According to claim 1 or claim 2, wherein the inclined wall formed on both sides of the buoyancy chamber to form an inclined surface of the upper and lower light (上 狹 下 廣) and the upper surface of the buoyancy chamber is inclined downward toward the outflow passage side. Supernatant discharge device characterized in that formed.

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