KR101442427B1 - Discharge methods and apparatus of superiority water - Google Patents

Abstract

The present invention relates to a method and apparatus for discharging supernatant in which a pre-treatment process for depositing sediment from sewage introduced into a treating tank is performed, and then, supernatant is separated and discharged from the sewage by using a decant device vertically moving in the sewage. In particular, a recovering stand (10) is installed at the upper side of the treating tank (3), and a guiding roller (15) is installed on the recovering stand (10) and is supported thereby to guide a wire (30) connected to a recovering ring (24) disposed at the upper side of the decant device (2). In addition, an end of the wire (30) is connected to a rotation shaft (45) that rotates forwardly and reversely by a servo motor (M) and a decelerator (40), to vertically pull or release the wire, thereby vertically moving the decant device (2) and controlling a vertical movement speed thereof. Thus, the decant device is recovered to the upper side of the sewage to fundamentally prevent scum of the sewage from being introduced into the decant device during the pre-treatment process, and the vertical movement speed of the decant device is conveniently and effectively controlled to significantly improve a supernatant separation and discharge efficiency and other work efficiencies.

Description

Discharge methods and apparatus of superiority water [

More particularly, the present invention relates to an apparatus and a method for discharging a supersonic water, and more particularly, to a method and apparatus for discharging a wastewater into a treatment tank by pre- The decanter is lifted up to the upper portion of the wastewater during the pretreatment process to prevent the scum of the wastewater from flowing into the decanter during the pretreatment process, The present invention relates to a high-pressure discharge apparatus and a discharge method which can remarkably improve separation efficiency and other operation efficiency of the high-grade water because of simple and effective control of the moving speed.

Due to the rapid industrial development, water quality and soil pollution problems caused by sewage, sewage, and wastewater discharged from general households, restaurants, and factories are serious problems.

For this reason, the installation of facilities for treating various wastewater is legally enforced.

In such a wastewater treatment apparatus, an apparatus for separating a wastewater has been disclosed, in particular, a wastewater separating apparatus for precipitating a precipitate by aeration or agitation of wastewater, and separating and discharging only the upper water of the wastewater.

The conventional high-grade water separating apparatus separates and discharges the supernatant while moving up and down according to the water level of the wastewater by the wastewater of the decant after the pretreatment process of precipitating the wastewater introduced into the treatment tank by aeration or agitation .

However, the above-mentioned conventional water discharge apparatus has a problem that the scum of the wastewater flows into the decanter since the decanter floats in the wastewater during the preprocessing process of precipitating the wastewater introduced into the treatment tank by aeration, agitation or the like there was.

In order to solve such a problem, Patent Registration No. 10-1000076 forms an up-down movement path so as to position the descent inlet of the decanter above the water level, thereby preventing the descent scum from flowing during the pre-treatment process.

However, since the decanter is installed in the wastewater due to buoyancy during the pretreatment process of the wastewater, the above-mentioned high-grade water discharging device still has a problem that the scum of the wastewater can not be completely blocked from flowing into the decanter.

In addition, since the up-and-down movement path is formed such that the upper water inflow path of the decanter is located above the water level, there is a problem in that the discharge flow of the rising water is not smooth when the water is discharged.

Further, in the conventional high-grade water discharging apparatus, since the decant floats in the wastewater due to its own buoyancy, it moves upward and downward according to the water level and separates and discharges the upper water. The return and return operation of the sewage water must be restored by the rise of the water level due to the inflow of wastewater and the efficiency of separation and discharge of the sewage water and other operation efficiency are greatly reduced.

Of course, in Patent Registration No. 10-955538, a decenter is screwed to a vertical screw which is rotated forward and backward by a gear type power transmission structure by rotation of a drive motor, and the decenter wins by forward and reverse rotation of the vertical screw The water level of the wastewater and the sediment are selected and discharged while the wastewater is descended. However, this problem is also accompanied by the problem that the scum is introduced into the wastewater during the pretreatment process of the wastewater, There is a limit to the moving speed control because it is controlled by the transfer structure. Especially, since the mechanical parts such as the vertical screw are locked in the wastewater, there is a problem of frequent failure and malfunction due to corrosion or foreign matter pinched. And cost and durability are greatly deteriorated.

Patent Registration No. 10-1000076 Patent Registration No. 10-955538

Disclosure of Invention Technical Problem [8] The present invention has been made to solve all the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for recovering wastewater, The decanter is lifted up to the top of the wastewater during the pretreatment process, thereby preventing the scum of the wastewater from flowing into the decanter during the pretreatment process. In addition, So that it is possible to control the descending moving speed easily and effectively, thereby greatly improving the separation and discharge efficiency of the supernatant and other working efficiency.

It is an object of the present invention to provide a smooth flow of discharged water of wastewater by simplifying the water discharge structure inside the dikes and discharging the expanded air inside the initial stage of the water discharge to the outside.

The present invention separates and discharges the upper water of the wastewater through a decanter moving up and down from the wastewater and a discharge pipe connected to the decanter by a flexible connection hose after a pretreatment process of precipitating the wastewater flowing into the treatment tank. And a guide roller is installed on the lifting base to support a wire connected to a pulling hook on an upper portion of the decant. The end of the wire is supported by a servo motor and a speed reducer, And the wire is vertically pulled or loosened by being connected to a rotating shaft that operates in reverse rotation. Accordingly, the present invention provides a water level discharging device for controlling the up-down movement and the up-down movement speed of the decenter by the forward and reverse rotation of the rotation axis. have.

In the present invention, the decent is divided into upper and lower parts of the main body, and a weight adjusting chamber for adjusting the weight of the main body according to the amount of water injected through a water inlet and a water outlet, And an air discharge passage having a check valve is connected to the upper discharge chamber so that the internal expanded air is automatically discharged to the outside at the initial stage of inflow of the upper discharge water.

The present invention separates and discharges the upper water of the wastewater by a decant which moves upward and downward from the wastewater after the pretreatment process of precipitating the wastewater flowing into the treatment tank. The decenter is moved upward and downward by vertically pulling or loosening the wire by supporting the upper portion of the decenter by a wire and by forward and reverse rotation of the servo motor and the speed reducer so that the decenter is moved up and down before the waste water pre- The decanter is lowered to the wastewater position by descending the decanter to the upper portion of the wastewater, and then the decanter is lowered to the wastewater portion by descending the decanter by the unwinding of the wire to separate and discharge the upper portion of the wastewater. The method of the present invention is characterized by providing a method of discharging the upper water of the wastewater by controlling the descending speed of the wire by the winding speed of the wire, and then returning the decant by raising the wire by pulling the wire.

The present invention separates and discharges the upper water of the wastewater by moving the decant upward and downward by a wire pulling or unwinding operation by forward and reverse rotation of the driving motor after the pre-processing process of precipitating the wastewater flowing into the treatment tank, Not only prevents the problem that the scum of the wastewater flows into the decanter during the preprocessing process but also can control the up / down moving speed of the decanter in a simple and effective manner, Discharge efficiency and other working efficiency of the exhaust gas.

In addition, the present invention has an effect of smoothly supplying the upper water discharge flow of the wastewater by simplifying the water discharge structure inside the decanter and discharging the expanded air in the initial stage of the water discharge.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a configuration diagram showing an overall configuration of an inventive device. Fig.
Figure 2 is a perspective view showing the descent of the inventive device.
3 is a front sectional view showing a descent of the apparatus of the present invention.
4 is a configuration diagram showing a decant lift-up state of the apparatus of the present invention.

First, a detailed description will be made of the above-mentioned high-water discharge apparatus of the present invention with reference to the accompanying drawings.

1 to 4, a pretreatment process of precipitating sediments of wastewater introduced into the treatment tank 3, a decant 2 moving upward and downward from the wastewater and a flexible connection And the upper water of the wastewater is separated and discharged through the discharge pipe 5 connected to the hose 4.

In particular, a lifting platform 10 is installed above the treatment tank 3,

A guide roller 15 is installed on the lifting base 10 to support the wire 30 connected to the pull ring 24 on the upper portion of the decant 2. The end of the wire 30 is supported by a servo The wire is vertically pulled or unclamped by being connected to a rotary shaft 45 which is operated by a motor M and a speed reducer 40 to perform forward and reverse rotations so that the decenter 2 Downward and downward movement speeds of the first and second drive motors.

At this time, since the decanter 2 separates and discharges the supernatant while descending from the wastewater in proportion to the unwinding of the wire 30 and the self weight rate (or buoyancy) of the decanter 2, The control is made possible by controlling the loosening speed of the wire by the rotary shaft 45 and adjusting the weight (or buoyancy) of the decant 2.

The decanter 2 divides the inside of the main body 20 into upper and lower portions and controls the weight of the main body 20 according to the amount of water injected through the water inlet 21a and the water outlet 21b, The upper water discharge chamber 25 is provided with a check valve 27 for discharging the upper water through a chamber 21 and a lower discharge port 25b and a lower discharge port 25b. ) Is connected to the air discharge passage 26 so that the internal expanded air is automatically discharged to the outside at the initial stage of the inflow of the equalizing water.

Guide hooks 22 are provided on both sides of the main body 20 of the decant 2 so as to guide the guide 6 up and down along the guide 6 vertically disposed in the treatment tank 3, And a transparent window 23 is formed so that the display window 25 can be visually confirmed.

In addition, the lifting unit 35 and the sensing sensor 36 for sensing the degree of pulling of the wire are installed on the lifting base 10 and the wire 30 to control the maximum height for lifting the decant 2 to the upper portion of the wastewater .

The lifting base 10 is composed of a vertical base 11 fixed to the ground and a horizontal base 12 extended to the upper portion of the treatment tank 3, It is preferable to form a structure having an upward slope.

A control panel 50 and an opening and closing valve 50 of the discharge pipe 5 are provided for detecting the high level and the low level of the processing tank so as to detect the high and low levels of the servomotor M and the speed reducer 40, Respectively, to represent the high and low level sensors, respectively.

Hereinafter, a process of discharging the supersonic water according to the present invention will be described.

The decanter (2) is salvaged to the upper part of the wastewater before the wastewater is introduced into the treatment tank (3) or the wastewater is introduced and the precipitate is precipitated by aeration, stirring or the like.

This is because the wire 30 connected to the pulling collar 24 on the decanter 2 is supported by the servo motor M and the speed reducer 40 while being supported by the guide roller 15 of the lifting platform 10 The wire is pulled up by the rotating shaft 45 rotating and rotated to vertically lift the decant 2 to the upper part of the wastewater.

At this time, the decent 2 senses the pulling degree of the wire by the sensing zone 36 and the sensing zone 35 provided on the lifting platform 10 and the wire 30, So that it is controlled to be lifted.

In this way, a pretreatment process is performed in which the wastewater in the treatment tank 3 is precipitated by aeration, stirring or the like while the decant 2 is lifted to the upper portion of the wastewater.

At this time, since the decanter 2 is completely lifted up to the upper portion of the wastewater, the problem that the scum of the wastewater flows into the decanter 2 in the pretreatment process is blocked.

After completion of the pretreatment process of precipitating the wastewater from the wastewater, the wire 30 is loosened by the rotary shaft 45 which is rotated forward by the servo motor M and the speed reducer 40, (2) to the upper water level position of the wastewater.

At this time, the decenter 2 moves down rapidly by the speed control of the servo motor M and the speed reducer 40.

After the decenter 2 is returned to the upper water level position of the wastewater, the rotary shaft 45 releases the wire 30 by the continuous forward rotation of the servo motor M and the speed reducer 40 While the descent 2 descends by its own weight (or buoyancy), and the rising number of wastewater is separated and discharged.

This is because the supernatant flowing into the supernatant discharge chamber 25 through the water inlet 25a formed at the lower side of the descent main body 20 is discharged through the lower water outlet 25b and connected to the flexible connection hose 4 And is discharged and discharged through the discharge pipe (5).

At this time, the air in the supersonic water discharge chamber 25 expands when the supernatant water is initially introduced into the supersonic water discharge chamber 25, thereby forming expanded air. The expanded air flows through the check valve 27 of the air discharge passage 26 So that the discharge flow of the supernatant can be smoothly provided.

Further, the descent 2 of the present invention controls the descending speed by controlling the speeds of the servomotor M and the speed reducer 40, so that the upper and lower wastewater can be separated and discharged more efficiently.

This is because the rotation speed of the wire 30 is controlled by the rotary shaft 45 which is rotated forward by the servomotor M and the speed reducer 40 and by the weight of the decanter 2 The descent speed of the decanter is controlled by the descent speed of the decanter, so that it is possible to perform the work more effectively than when the decanter of the wastewater is separated and discharged according to the conventional buoyancy alone.

The self weight (or buoyancy) of the decanter 2 is controlled by controlling the amount of water injected through the water inlet 21a and the water outlet 21b into the weight adjusting chamber 21 formed in the upper part of the decanter body 20 Thereby adjusting the weight (or buoyancy) of the main body.

When the decanter 2 descends and the upper and lower waters are separated and discharged, the wire 30 is rotated again by the rotary shaft 45 which is operated to rotate reversely by the servo motor M and the speed reducer 40 And the decant 2 is raised and returned.

At this time, the decent 2 is quickly moved up and back by the speed control of the servo motor M and the speed reducer 40, and is returned.

In particular, the servomotor M and the speed reducer 40 for controlling the rise and fall of the decant 2 pull or pull the wire 30 connected to the decant 2 by forward and reverse rotation of the rotary shaft 45, The speed control is simplified and the movement control is more effectively performed than the conventional gear type power transmission structure because the decenter 2 is controlled to move up and down.

Accordingly, the present invention separates and discharges the upper water of the wastewater by moving the decant up and down by a wire pulling or unwinding operation by forward and reverse rotation of the driving motor after the pretreatment process of precipitating the wastewater flowing into the treatment tank, Kent is able to lift up the wastewater from the top of the wastewater during the pre-treatment process, to prevent the scum from flowing into the wastewater during the pre-treatment process, and to control the descent speed of the decant in a simple and effective manner. The efficiency of separation and discharge and other working efficiency are greatly improved.

2: Decant 3: Treatment tank
4: Connection hose 5: Discharge tube
10: Lifting frame 15: Guide roller
20: main body 21: weight adjusting chamber
21a: Water inlet 21b: Water outlet
25: Supersonic discharge chamber 25a: Inlet port
25b: exhaust port 26: air exhaust passage
27: Check valve 30: Wire
35: sense area 36: detection sensor
40: Reducer 45:

Claims (4)

delete (2) which is controlled to move upward and downward by motor driving in the wastewater after a pretreatment process of precipitating sediments of wastewater flowing into the treatment tank (3) and a discharge pipe connected to the decant by a flexible connection hose 5) for separating and discharging the upper water of the wastewater, comprising:
A lifting frame 10 is installed above the treatment tank 3 and a guide roller 15 is installed on the lifting platform 10 to form a wire 30 connected to the pulling ring 24 on the upper portion 2 And an end of the wire 30 is connected to a rotary shaft 45 which is operated by a servo motor M and a speed reducer 40 to perform forward and reverse rotations so as to pull the wire vertically, While controlling the up-down movement and the up-down movement speed of the decanter 2,
The decanter 2 includes a weight adjusting chamber 21 for vertically dividing the inside of the main body 20 and regulating the weight of the main body according to the amount of water injected through the water inlet 21a and the water outlet 21b, And an upper discharge chamber 25 for discharging the upper discharge water through the lower discharge ports 25a and the lower discharge ports 25b at the lower part of the upper discharge chamber 25. The upper discharge chamber 25 is provided with a check valve 27 And the discharge passage (26) is connected to discharge the internal expanded air to the outside automatically at the initial stage of the inflow of the supernatant.
3. The method of claim 2,
The lifting unit 35 and the sensing unit 36 are installed on the lifting base 10 and the wire 30 so as to control the maximum height for lifting the decant 2 to the upper portion of the wastewater. Wherein the upper surface of the upper surface of the upper surface of the lower surface delete

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