KR100393856B1 - decanter - Google Patents

Abstract

The present invention relates to a treatment water discharge device, which is fixed to the upper portion of the continuous batch reactor (10) and installed through the drive unit 20, the motor is mounted, and one side of the drive unit 20, the vertical direction by the motor The rack shaft 30 is installed to be movable to the fixed, the discharge hopper 40 is fixedly installed on the lower end of the rack shaft 30 and the discharge hole 41 is formed at the bottom, fixedly installed on the outside of the discharge hopper 40 The scum guard 50 for preventing scum from flowing into the discharge hopper 40, the discharge pipe 60 for discharging the treated water in the discharge hopper 40 to the outside of the continuous batch reactor 10, and the rack shaft 30 are moved. Level control device for indirectly measuring the discharge water level of the treated water by checking the distance to the control, and the control panel (70) for controlling the movement of the rack shaft 30 by controlling the drive unit 20, Easily discharge only symbol water without spillage The savings will allow the rain.

Description

Treatment Water Discharge Device {decanter}

The present invention relates to a discharge device used for the discharge of treated water in a sewage treatment plant or a wastewater treatment plant of a sequencing batch reactor (SBR) method, in particular, a symbol under a constant water surface in the discharge process of the continuous batch reactor process. It relates to a treatment water discharge device for discharging tens of thousands.

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.

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.

As shown in Figure 1, the decanter floating on the water surface to discharge the treated water is a product of A company and O company, these products uses the electric valve 170 to open and close the discharge pipe 160.

The electric valve is located below the outer wall and the water level of the continuous batch reactor 110, the floating tank 150 is only a means for collecting the surface water.

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.

In other words, the conventional apparatus has a problem that can be applied only when the concrete structure, support, etc. are installed together from the treatment plant construction stage.

In addition, the conventional discharge device is large in size, has a disadvantage in that a device for preventing the scum leakage of the surface layer is insufficient, a lot of power is consumed to operate the discharge device.

Accordingly, the present invention has been made to solve the above problems, it is possible to easily discharge only the symbol water by discharging the discharge device used for the treatment water discharge of the sewage or wastewater treatment plant treated by the continuous batch reaction tank method. The purpose is to provide a treatment water discharge device.

The present invention for achieving the above object, the drive shaft is fixed to the upper portion of the continuous batch reactor, the motor is mounted, the rack shaft is installed through one side of the drive unit is installed to be movable in the vertical direction by the motor Discharge hopper fixedly installed at the lower end of the rack shaft and the discharge hole formed at the lower end, scum guard fixedly installed at the outside of the discharge hopper to prevent the scum from flowing into the discharge hopper, the treated water in the discharge hopper outside the continuous batch reactor It is a structure consisting of a discharge pipe discharged to the level, the level sensing device for indirectly measuring the discharge level of the treated water by checking the distance the rack shaft moves, and the control panel to control the movement of the rack shaft by controlling the drive unit.

Therefore, by moving the rack shaft to the drive unit to move the discharge hopper selectively above and below the surface of the treated water to discharge only the symbol water.

1 is a perspective 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 perspective view showing a drive unit of the present invention;

4 is a cross-sectional view showing a discharge hopper of the present invention;

5 is a perspective view showing an operating state of the treatment water discharge apparatus according to the present invention,

6 is a schematic 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: drive unit

21: drive case 22: drive motor

23: reducer 24: rotating shaft

25: Chain 26: Leveler

27: level sensor 28: rack hole

29: pinion 30: rack shaft

40: discharge hopper 41: discharge hole

50: scum guard 60: discharge pipe

70: control panel

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

2 is a perspective view showing a treatment water discharge device according to the present invention, Figure 3 is a perspective view showing a drive unit of the present invention, Figure 4 is a cross-sectional view showing a discharge hopper of the present invention, Figure 5 is a treatment water discharge device according to the present invention 6 is a perspective view showing an operating state of Figure 6 is a schematic cross-sectional view showing a use state of the present invention.

According to the present invention as described above, the drive unit 20 is fixedly installed on the upper portion of the continuous batch reactor 10 and the motor is mounted, and is installed through one side of the drive unit 20 and moved up and down by a motor. The rack shaft 30 is installed, the discharge hopper 40 is fixedly installed at the lower end of the rack shaft 30 and the discharge hole 41 is formed at the lower end, the discharge hopper fixedly installed on the outside of the discharge hopper 40 The scum guard 50 to prevent the scum from being introduced into the 40 and coupled to the discharge hole 41 of the discharge hopper 40 to discharge the treated water in the discharge hopper 40 to the outside of the continuous batch reactor 10. A level sensing device installed in the discharge pipe 60 and the driving unit 20 to check the distance moved by the rack shaft 30 to indirectly measure the discharge level of the treated water, and the driving unit by a signal of the level sensing device. Control panel (70) for controlling the movement of the rack shaft (30) by controlling (20) )

Features of the present invention having the above structure is that the discharge hopper 40, the rack shaft 30 and the drive unit 20 is provided, the drive unit 20 is fixed to the upper portion of the continuous batch reactor (10) And, by moving the rack shaft 30 to the drive unit 20 to move the discharge hopper 40 above and below the surface of the treated water selectively to discharge only the symbol water.

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.

The present invention operates during the discharge time to serve to discharge the treated water out of the continuous batch reactor (10).

In the present invention, when installed in a sewage treatment plant of 100 tons / day, the spot area is about 0.5 m2, and the power is about 1.0 Kw, which is very economical, about 1/10 of other discharge devices.

In addition, the conventional apparatus can be applied only when the concrete structure, support, etc. are installed together from the treatment plant construction stage, but the present invention can be installed in any treatment plant as a completely independent structure.

The driving unit 20 includes a driving unit case 21, a driving motor 22 and a reduction gear 23 mounted in the driving unit case 21, and a rack hole 28 penetrates adjacent to the reduction unit 23. On the other hand, the pinion 29 is received adjacent to the rack hole 28 receives the power of the reducer 23, and a level sensing device for detecting the level by the speed of the reducer 23 is installed have.

The drive case 21 penetrates the upper and lower portions to form a rack hole 28 so that the rack shaft 30 can move through the drive case 21.

The reducer 23 is fixed to the drive case 21 adjacent to the drive motor 22 to serve to reduce the rotation ratio of the drive motor 22, and the pinion 29 is coupled to one side to rotate. It is.

The pinion 29 rotates by the speed reducer 23 and is engaged with the rack shaft 30 inserted through the rack hole 28 so as to move the rack shaft 30 back and forth.

The level sensing device is composed of a rotating shaft 24, the leveler 26 and the level sensor 27 to indirectly measure the distance traveled by the rack shaft 30.

Both ends of the rotation shaft 24 are rotatably supported by the driving unit case 21, and are connected to one side of the reduction gear 23 by a chain 25 to rotate, and the rotation shaft 24 has a circular leveler 26. ) Is fitted to move left and right when the rotary shaft 24 rotates.

The level sensor 27 is fixedly installed adjacent to the front of the leveler 26 to indirectly measure the movement distance of the rack shaft 30 by the movement of the leveler 26, and the measured value is measured by the control panel. By transmitting to 70, the control panel 70 is able to control the drive motor 22 of the drive unit 20.

The rack shaft 30 is a rod of stainless material, one side of the rod is recessed to be bitten by the pinion (29).

In addition, the other end of the rack shaft 30 is fixed to the discharge hopper 40 so that as the drive motor 22 of the drive unit 20 rotates, the rack shaft 30 is moved downward, with the discharge hopper 40 ) Will also move downwards and gradually enters the surface of the continuous batch reactor (10).

The discharge hopper 40 is a circular stainless hopper, and the scum guard 50 is attached to the outside.

Therefore, as the discharge hopper 40 is introduced into the water, the scum does not enter the discharge hopper 40 by the scum guard 50, and only the symbol water below the surface layer of about 15 to 20 cm is inside the discharge hopper 40. Will enter.

The discharge pipe 60 is connected to the lower end of the discharge hopper 40, the discharge pipe 60 is connected to the discharge hopper 40 and the continuous batch reaction tank 10 and becomes a movement passage of the treated water.

All such operations are performed sequentially by the electrical signal given from the control panel (70).

The control panel 70 has a power supply, a timer, an AC / DC converter, an inverter, and the like.

The principle of operation is as follows.

When the timer built in the control panel 70 senses the specified time, the supply of electricity to the drive motor 22 of the drive unit 20, the drive motor 22 is supplied with electricity starts to rotate the drive motor The rotation speed of 22 is freely adjusted by the inverter.

The speed reducer 23 attached to the end of the drive motor 22 reduces the speed of rotation to about 1/1000, thereby slowing down the speed of descending and exerting a large force.

With the rotation of the speed reducer 23, the rack shaft 30 inserted into the rack hole 28 starts to descend, and at this time, the level sensing device built in the driving unit 20 also starts to operate.

Since the leveler 26 moves at a rate of 1/20 of the descending distance of the rack shaft 30, it is possible to easily adjust the treatment water discharge speed and the discharge rate by adjusting the contact interval of the leveler 26.

The + rotation of the drive motor 22, or the lowering of the rack shaft 30, continues until the leveler 26 reaches a certain contact point, and as soon as the leveler 26 contacts the contact point, electricity is + Is changed from-to the driving motor 22 starts the reverse rotation, and by the reverse rotation of the drive motor 22, the rack shaft 30 finishes the discharge of the treated water and starts to rise.

The rise of the rack shaft 30 continues until the leveler 26 contacts a certain contact point, and the position of the constant contact point is adjusted in advance so that the discharge hopper 40 is about 30 to 50 cm above the water surface.

When the leveler 26 contacts a certain contact point, the driving motor 22 stops, and the timer starts time operation again.

Therefore, the present invention discharges the treated water while the discharge pipe 60 is stopped on the water surface while the discharge pipe 60 is stopped, so there is no risk of discharge of untreated water due to poor opening and closing, the device is simple and the discharge hopper 40 Scum guard is prevented naturally by the scum guard 50 mounted.

As described above, according to the treated water discharging apparatus according to the present invention, the discharge hopper can be selectively moved from the surface of the treated water with a small force, thereby reducing the facility cost and operating cost by easily discharging only the symbol water without the leakage of scum. Not only can this be expected, but the effect of import substitution can be expected, and it can greatly contribute to environmental protection and water pollution prevention.

Claims (4)

A drive unit 20 fixed to the upper portion of the continuous batch reactor 10 and equipped with a drive motor 22; A rack shaft 30 installed to penetrate one side of the driving unit 20 to be movable upward and downward by the driving motor 22; A discharge hopper 40 fixedly installed at a lower end of the rack shaft 30 and moving together with the rack shaft 30, and having a discharge hole 41 at a lower end thereof; A scum guard (50) fixed to the outside of the discharge hopper (40) to prevent scum from flowing into the discharge hopper (40); A discharge pipe (60) coupled to the discharge hole (41) of the discharge hopper (40) to discharge the treated water in the discharge hopper (40) to the outside of the continuous batch reaction tank (10); Control panel (70) for controlling the movement of the rack shaft 30 by controlling the drive unit 20; treatment water discharge device consisting of. The method of claim 1, wherein the driving unit 20 And the drive part case 21 through which the rack hole 28 is formed in the vertical direction: A reduction gear 23 mounted to the driving motor 22 of the driving part case 21; A pinion (29) installed adjacent to the rack hole (28), engaged with the rack shaft (30), and driven by the power of the reducer (23) to drive the rack shaft (30); And a level sensing device for indirectly measuring the discharge level of the treated water by detecting a contact point of the leveler 26 by the rotation of the reducer 23 and checking a distance that the rack shaft 30 moves. Treatment water discharge device characterized in that. The method of claim 2, wherein the level sensing device A rotating shaft 24 connected to the reducer 23 and the chain 25 to rotate; A leveler 26 fitted to the rotary shaft 24 and moving left and right by rotation of the rotary shaft 24; And a level sensor (27) for indirectly measuring the distance that the rack shaft (30) moves through the rotary shaft (24) and the leveler (26). The method of claim 1, wherein the scum guard (50) of the discharge hopper 40 is characterized in that the height can be adjusted.