KR101868975B1 - Discharge apparatus of superiority water - Google Patents

Abstract

The present invention relates to an automatic treatment water discharge apparatus using a worm gear reduction motor of a reactor of a sewage treatment plant. The apparatus includes: a water storage part storing treatment water including sludge; a discharge part placed on the treatment water to be able to be elevated in accordance with a water level of the treatment water for floating the same, and discharging pollutants included in the treatment water to the outside through an inlet formed in the upper part; a position changing part changing upper and lower positions of the inlet of the discharge part; and a discharge control part measuring a pollution concentration value of the pollutants of the discharged treatment water, and then, consecutively dropping the inlet of the discharge part through the position changing part when the measured pollution concentration value is formed within a preset reference concentration range, and collecting the discharged treatment water into the water storage part when the measured pollution concentration value is formed to be equal to or greater than the reference concentration value.

Description

{DISCHARGE APPARATUS OF SUPERIORITY WATER}

[0001] The present invention relates to a waste water automatic drainage apparatus using a wastewater reduction reactor of a sewage treatment plant reaction tank, and more particularly, , The sewage treatment plant wastewater treatment plant can efficiently solve the problem that the slag contained in the treated water is discharged to the outside by discharging the supernatant gradually and continuously when it is higher than the reference value, And more particularly, to an automatic discharge device for treated water using a decelerating motor.

Generally, the SBR (continuous batch reactor) process is performed in the order of time in the order of inlet, anaerobic, aerobic, precipitation, and discharge in one reactor, and about 50 to 60% of the treated water is discharged after the reaction.

Here, when the discharged level is 60% or more, there is a problem that the precipitated sludge is lost to the outside, resulting in deterioration of the treated water quality.

Accordingly, conventionally, a decanter which is a device for discharging treated water in a continuous batch type reaction tank is used.

Conventional treated water discharging devices are roughly divided into fixed type and mobile type discharging devices.

At present, a mobile water treatment apparatus which is relatively easy to respond to a change in water level of a reaction tank is mainly used.

Also, in the case of a small-scale treatment plant of less than 500 tons, the waste water treatment system is discharged by using a decanter pump using a submersible pump after the mixed solution is settled for a predetermined time.

In the case of the floating water treatment device, the floatation device is submerged and discharged through the motorized valve to the main body of the discharge device. When the discharge time is completed, the motorized valve is opened to discharge the supernatant in the floating device, A method of discharging treated water is used.

In the case of the above-described discharge device, if the foreign substance is attached to the discharge device body and the foreign substance is heavy, the discharge device may not float and the sludge may leak out.

Further, in the case of the discharge device using the decanter pump, when the sludge volume becomes equal to or greater than the decanter pump after the mixed solution in the reaction tank is settled, the sludge may leak out during the discharge time, resulting in deterioration of the treated water quality.

Prior art relating to the present invention includes Korean Patent Laid-Open Publication No. 10-2010-0011622.

An object of the present invention is to provide a discharge unit for ascending and descending in a reaction tank, and when the discharge unit is within a reference value according to the concentration of pollutants contained in the stored treatment water, the discharge unit is gradually lowered to discharge the supernatant, The present invention provides a sewage treatment plant reaction wastewater reduction motor using a sewage treatment plant deceleration motor capable of efficiently recovering discharged sewage water and efficiently discharging slag contained in treated water to the outside.

In order to achieve the above object, the automatic treatment apparatus for waste water using the wastewater reduction motor of the present invention comprises: a reservoir for receiving treatment water containing sludge; A discharge unit arranged to be able to move up and down according to a level of the treated water, being floated on the treated water, and discharging pollutants contained in the treated water to the outside through an inlet formed at an upper end; A position varying part for varying a vertical position of an inlet of the discharge part; And a control unit that measures the contamination concentration value of the pollutant in the discharged process water and continuously lowers the inlet of the discharge unit using the position variable unit when the measured contamination concentration value is within a preset reference concentration value And an emission control unit for recovering the treated water to be discharged to the reservoir unit when the measured concentration of pollutants is equal to or greater than a preset reference concentration value.

The water storage portion includes a first space portion in which the process water is received and a second space portion that is separated from the first space portion through a partition wall.

The discharge unit includes a first discharge pipe, a second discharge pipe arranged at one end of the first discharge pipe, and a floating member formed at the upper end of the second discharge pipe and forming a circular shape, the floating member forming the inlet.

The first discharge pipe passes through the partition wall, one end of the first discharge pipe is exposed in the first space portion and is bent along the upper side, and the other end extends outwardly through the second space portion.

The second discharge pipe is inserted into one end of the first discharge pipe and is disposed so as to be able to ascend and descend.

The floating member includes a circular wear fixing member provided at the upper end of the second discharge pipe and gradually narrowing in the hollow along the lower end from the upper end thereof and a circular wear fixing member provided at the upper end of the circular pipe fixing member, Respectively.

The position varying unit includes an elevating shaft and a cylinder connected to an upper end of the elevating shaft to elevate the elevating shaft.

The elevation shaft is disposed so as to pass through the upper end of the first space and stand upright.

The lower end of the lifting shaft is connected to the center of the circular wear holding member, and the upper end of the lifting shaft is connected to the lifting cylinder.

Wherein the discharge control unit comprises a contamination concentration measuring sensor provided on the first discharge pipe and measuring a contamination concentration value with respect to the pollutant contained in the process water flowing in and discharged through the inlet, A return pipe for branching from the first discharge pipe in the second space portion and connecting the reservoir portion to recover the process water discharged from the first discharge pipe; A second on-off valve that is provided to open and close the recovery flow path along the recovery pipe; and a controller that controls opening and closing operations of the first on-off valve and the second on-off valve.

Wherein the controller opens the first on-off valve, closes the second on-off valve, and drives the cylinder so that the up / down shaft is gradually moved Closing the first open / close valve, opening the second open / close valve and discharging the same when the measured contamination concentration value is equal to or greater than a predetermined reference concentration value Water is recovered to the reservoir through the recovery pipe.

In the first space portion, an aeration device is disposed, and the aeration device includes a blower, a blowing pipe, and a blowing device in which the width devices are formed.

The blower is disposed at an upper end of the first space and is driven by receiving a control signal from the controller.

The breech block is disposed along an inner bottom surface of the first space portion, and the width portions are exposed to the inside of the first space portion.

One end of the blowing pipe is connected to the blower.

And the other end of the blowing pipe is connected to one end of the blowing pipe.

Particularly, in the second space portion, a temperature control portion is provided,

The temperature control unit may include a temperature sensor for measuring an internal temperature of the second space unit, a heater for heating the internal temperature of the second space unit, and a cooler for cooling the internal temperature of the second space unit,

The controller preferably controls driving of the heater and / or the cooler such that the measured internal temperature reaches a predetermined reference temperature.

The heater may further include a heating coil embedded in an outer periphery of the first discharge pipe exposed in the second space, and the cooler may be disposed on the outer periphery of the first discharge pipe exposed in the second space And a cooling coil embedded therein,

And the heating coil and the cooling coil are disposed at different positions on the outer periphery of the first discharge pipe.

Wherein one end of the blowing tube is rotatably connected to a lower end of the blowing tube, the other end of the blowing tube is rotatably supported on the partition, and the partition is controlled by the controller And a rotary motor for rotating the breech block is installed.

It is preferable that the width mechanisms are formed of a multi-stage pipe which can be projected in multiple stages.

According to the present invention, there is provided a discharge unit that is raised and lowered in a reaction tank. When the discharge unit is within a reference value according to the concentration of pollutants contained in stored process water, the discharge is gradually reduced continuously to discharge the supernatant. It is possible to effectively recover the problem that the slag contained in the treated water is discharged to the outside by recovering the discharged supernatant.

FIG. 1 is a view showing the construction of an automatic drainage apparatus for a treated water using a worm gear reduction motor of a sewage treatment plant of the present invention.
FIG. 2 is a block diagram showing a configuration of an automatic treatment apparatus for waste water using a worm gear reduction motor of a sewage treatment plant of the present invention.
3 is a view showing a configuration of a discharge portion according to the present invention.
4 is a view showing a configuration of a floating member according to the present invention.
5 is a flow chart showing the operation of the automatic drainage device for treated water using the worm gear reduction motor of the sewage treatment plant of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Hereinafter, the term "an upper (or lower)" or a "top (or lower)" of the substrate means that any structure is disposed or arranged in any manner, as long as any structure is provided or disposed in contact with the upper surface .

Furthermore, the present invention is not limited to a configuration that does not include any other configuration between the substrate and any configuration provided or disposed on (or under) the substrate.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for automatically discharging treated water using a wastewater reduction motor of a sewage treatment plant of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view showing the construction of an automatic drainage apparatus for a treated water using a worm gear reduction motor of a sewage treatment plant of the present invention. FIG. 2 is a block diagram showing a configuration of an automatic treatment apparatus for waste water using a worm gear reduction motor of a sewage treatment plant of the present invention. 3 is a view showing a configuration of a discharge portion according to the present invention. 4 is a view showing a configuration of a floating member according to the present invention. 5 is a flow chart showing the operation of the automatic drainage device for treated water using the worm gear reduction motor of the sewage treatment plant of the present invention.

1 and 2, an apparatus for automatically discharging treated water using a wastewater reduction motor of a sewage treatment plant of the present invention comprises a reservoir 100 for receiving treated water containing sludge, A discharge unit 200 arranged to be able to move up and down according to a water level of the discharge unit 200 and discharging contaminants contained in the process water to the outside through an inlet formed at an upper end of the discharge unit 200; And a control unit 300 for controlling the position variable unit 300 to measure the concentration of contaminants in the discharged process water, When the measured concentration of pollutants is equal to or greater than a preset reference concentration value, the treated water discharged from the outlet It consists of the discharge control unit 400 for recovering a member (100).

The reservoir 100 according to the present invention includes a first space 110 in which the process water is received and a second space 140 separated from the first space 110 through the partition 130 .

The discharge unit 200 includes a first discharge pipe 210, a second discharge pipe 220 disposed at one end of the first discharge pipe 210 so as to be able to ascend and descend, And a floating member 230 forming the inlet and forming the inlet.

One end of the first exhaust pipe 210 is exposed through the partition 130 and is bent upward along the first space 110 and the other end passes through the second space 120, .

The second discharge pipe (220) is inserted into one end of the first discharge pipe (210) and arranged to be able to move up and down.

The floating member 230 includes a circular wear fixing member 231 disposed at the upper end of the second discharge pipe 220 and having a hollow gradually narrowing from the upper end along the lower end thereof, And a circular weave 232 installed at the upper end to form buoyancy.

The position changing unit 300 includes an elevating shaft 310 and a cylinder 320 connected to an upper end of the elevating shaft 310 to elevate the elevating shaft 310.

The lifting shaft 310 is disposed so as to pass through the upper end of the first space 110 and stand upright.

The lower end of the lifting shaft 310 is connected to the center of the circular wear fixing member 231 and the upper end of the lifting shaft 310 is connected to the cylinder 320.

The discharge control unit 400 according to the present invention is provided on the first discharge pipe 210 and is provided with a pollution measuring unit for measuring the pollution concentration value of pollutants contained in the process water flowing in and discharged through the inlet port a, A first opening and closing valve 420 for opening and closing a discharge channel exiting from the first discharge pipe 210 and a second opening and closing valve 420 for opening and closing the first discharge pipe 210 in the second space 120, A recovery pipe 430 branched from the waste water recovery pipe 430 and connected to the reservoir unit 100 to recover waste water to be discharged and a recovery pipe 430 provided on the recovery pipe 430, And a controller 450 for controlling the opening and closing operations of the first on-off valve 420 and the second on-off valve 440. The second on-

The controller 450 opens the first on-off valve 420, closes the second on-off valve 440 when the measured concentration of pollutants is within the predetermined reference concentration, The lifting shaft 310 is gradually lowered by driving the cylinder 320 to lower the lifting member 230 continuously.

The controller 450 closes the first on-off valve 420 and opens the second on-off valve 440 when the measured contamination concentration value is equal to or greater than a preset reference concentration value, Is recovered to the reservoir (100) through the recovery pipe (430).

The aeration device 500 is disposed in the first space 110 and the aeration device 500 includes a blower 510, a blowing pipe 520, (530).

The blower 510 is disposed at an upper end of the first space 110 and is driven by receiving a control signal from the controller 450.

The width wings 530 are disposed along the inner bottom surface of the first space portion 110 and the width portions 531 are exposed to the inside of the first space portion 110.

One end of the blowing pipe 520 is connected to the blower 510.

The other end of the blowing pipe 520 may be connected to one end of the blowing pipe 530.

Particularly, although not shown in the drawings, a temperature control unit may be provided in the second space portion according to the present invention.

The temperature regulator includes a temperature sensor for measuring an internal temperature of the second space, a heater for heating an internal temperature of the second space, and a cooler for cooling an internal temperature of the second space.

The controller may control driving of the heater and / or the cooler so that the measured internal temperature reaches a predetermined reference temperature.

The heater may further include a heating coil embedded in an outer periphery of the first discharge pipe exposed in the second space, and the cooler may be disposed on the outer periphery of the first discharge pipe exposed in the second space And may include embedded cooling coils.

The heating coil and the cooling coil may be disposed at different positions on the outer periphery of the first discharge pipe.

Wherein one end of the blowing tube is rotatably connected to a lower end of the blowing tube, the other end of the blowing tube is rotatably supported on the partition, and the partition is controlled by the controller A rotary motor for rotating the borehole may be installed.

In addition, the width mechanisms may be configured as multi-stage pipes which can be projected in multiple stages.

According to the above-described structure and function, the embodiment according to the present invention constitutes a discharge part which is lifted and lowered in the reaction tank. When the discharge part is within the reference value according to the concentration of the pollutant contained in the stored treatment water, In the case where the supernatant is discharged and the supernatant is discharged above the reference value, there is an advantage that the discharged supernatant can be recovered, and the problem that the slag contained in the treated water is discharged to the outside can be effectively solved.

Although the present invention has been described with respect to specific embodiments thereof with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: bottom part 110: first space part
120: second space part 130: partition wall
200: discharge part 210: first discharge pipe
220: second discharge pipe 230: floating member
231: circular wear fixing member 232: circular wear
300: position changing portion 310: elevating shaft
320: cylinder 400: discharge control unit
410: Pollution concentration measuring sensor 420: First open / close valve
430: return pipe 440: second opening / closing valve
450: controller 500: aeration device
510: blower 520: blower
530: Spreading machine

Claims (5)

A reservoir for receiving the treatment water containing the sludge;
A discharge unit arranged to be able to move up and down according to a level of the treated water, being floated on the treated water, and discharging pollutants contained in the treated water to the outside through an inlet formed at an upper end;
A position varying part for varying a vertical position of an inlet of the discharge part; And
Wherein the control unit measures the pollutant concentration value of the pollutant in the discharged process water and continuously lowers the inlet of the discharge unit using the position variable unit when the measured pollutant concentration value is within a preset reference concentration value, And a discharge control unit for recovering the treated water to be discharged to the reservoir unit when the measured contamination concentration value is equal to or greater than a preset reference concentration value,
Wherein the water storage portion includes a first space portion in which the process water is received and a second space portion that is separated from the first space portion through the partition wall,
The discharge unit may include a first discharge pipe, a second discharge pipe disposed at one end of the first discharge pipe, and a floating member formed at the upper end of the second discharge pipe and forming a circular shape,
Wherein the first discharge pipe extends through the partition and one end of the first discharge pipe is exposed to the first space and is bent along the upper side and the other end extends to the outside through the second space, And is disposed so as to be lifted and lowered by being inserted into one end of the discharge pipe,
The floating member includes a circular wear fixing member provided at an upper end of the second discharge pipe and having a hollow gradually narrowing from the upper end to a lower end thereof and a circular weave provided at the upper end of the circular wear fixing member to form a buoyancy and,
Wherein the position varying unit includes an elevating shaft and a cylinder connected to an upper end of the elevating shaft to elevate the elevating shaft,
Wherein the lifting shaft is disposed so as to extend through the upper end of the first space part and stand upright,
The lower end of the lifting shaft is connected to the center of the circular wear holding member, the upper end of the lifting shaft is connected to the cylinder,
The discharge control unit
A pollutant concentration measuring sensor installed on the first discharge pipe for measuring a pollutant concentration value of the pollutant contained in the process water flowing in and discharged through the inlet;
A first opening / closing valve for opening / closing a discharge flow path discharged from the first discharge pipe to the outside,
A recovery pipe which is branched from the first discharge pipe in the second space part and connects the reservoir part to recover the treated water to be discharged,
A second opening / closing valve provided on the return pipe for opening / closing a return flow path along the return pipe,
And a controller for controlling the opening and closing operations of the first opening / closing valve and the second opening / closing valve,
The controller comprising:
Closing valve is closed and the cylinder is driven to gradually lower the lift shaft so as to move the lifting shaft to the lifting shaft by gradually lowering the lifting shaft when the contamination concentration value measured falls within a preset reference concentration value, The member is continuously lowered,
Closing the first on-off valve, opening the second on-off valve, and discharging the treated water to be discharged to the reservoir through the return pipe if the measured concentration of pollutants is equal to or greater than a predetermined reference concentration value And then,

Wherein the second space portion is provided with a temperature control portion,
The temperature control unit may include a temperature sensor for measuring an internal temperature of the second space unit, a heater for heating the internal temperature of the second space unit, and a cooler for cooling the internal temperature of the second space unit,
Wherein the controller controls driving of the heater and the cooler so that the measured internal temperature reaches a predetermined reference temperature,
Wherein the heater includes a heating coil buried in an outer periphery of the first discharge pipe exposed in the second space portion and the cooler is embedded in the outer periphery of the first discharge pipe exposed in the second space portion A cooling coil,
Wherein the heating coil and the cooling coil are disposed at different positions on the outer periphery of the first discharge pipe,
In the first space portion, an aeration device is disposed,
The aeration device includes a blower, a blowing tube, and a blowing device in which the blowing devices are formed,
Wherein the blower is disposed at an upper end of the first space and is driven by receiving a control signal from the controller,
Wherein the bimetal tube is disposed along an inner bottom surface of the first space portion, the width mechanisms are exposed inside the first space portion,
One end of the blowing pipe is connected to the blower,
The other end of the blowing pipe is connected to one end of the blowing pipe,
One end of the blowing tube is rotatably connected to a lower end of the blowing tube, the other end of the blowing tube is rotatably supported on the partition,
Wherein the partition is provided with a rotation motor for rotating the expansion valve under the control of the controller,
Wherein the width mechanisms are configured by a multi-stage pipe capable of being protruded in multiple stages. delete delete delete delete

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