KR101463504B1 - Sewer curage dehydrate device and dehydrate of method curage using the same - Google Patents

Abstract

The present invention relates to a sewer dredged soil dehydration device and a dehydration method for dredged soil using the same, wherein, the device crushes a lump of dredged soil including sand and soil dredged from the sewer; dehydrates the crushed dredged soil while moving the same to a dehydration device; and enables the dehydrated dredged soil to be used without a stacking period as the dehydration is continuous, fast, and excellent. The level of dehydration can be controlled, thus the dredged soil can have moisture that is suitable for the purpose of use, and the durability of the device is also excellent, thereby reducing maintenance costs.

Description

TECHNICAL FIELD [0001] The present invention relates to a sewage dewatering dewatering apparatus and a dewatering dewatering method using the same,

The present invention relates to a sewage dredging dredging device and a dredging dredging method using the same, and more particularly, to a sewage dredging dredging dredging device which finely crushes dredged dredged soil from dredged soil such as sand and soil dredged in a sewer, The dewatered dredged soils can be used without the need for a separate field period, and the degree of dewatering can be controlled, so that the water can be contained in accordance with the purpose of use. The present invention relates to a dewatering dredging dewatering device and a dewatering dewatering method using the same.

Generally, sewage dredged soil refers to dredged soil which is generated when sewage pipes, sewage pipes, sewage pipes, etc. are maintained.

In addition to preventing floods, each country's efforts have been made to eliminate water pollution, efficient maintenance of sewerage, and environmental preservation in urban areas by dredging sewage sludge sediments more than once a year in accordance with the sewerage maintenance guidelines, 723 thousand tons, 627 thousand tons in 2002, 650 thousand tons in 2003, and 833 thousand tons in 2004.

Dredged soil has been treated through landfill or marine dumping until now. However, due to the marine dumping prohibition treaty of the London Convention (96th Protocol), amendment plan of Marine Pollution Prevention Act of the Ministry of Maritime Affairs and Fisheries and prohibition of landfilling, , And the meaning of recycling is getting bigger under the observation that the pollutants generated in the city should be circulated in the urban system.

In the case of the dredged soil as described above, the moisture is not absorbed, but moisture is present on the surface of the dredged soil. Therefore, in the past, moisture was separated by allowing the moisture to drop naturally during the transportation using the transporting screw.

However, in the feeding method, there is a limitation also in separating moisture naturally. In order to separate the desired moisture from the dredged soil, the moisture is separated from the yard or space for a certain period of time and then used.

When the water is separated by such a method, there is a problem that considerable time, effort, and cost are required to separate moisture.

Therefore, in order to solve such a problem, a dewatering device for mechanically dewatering water contained in the dredged soil has been popularly used in recent years. As a typical example of such a dewatering device, a screen plate is vibrated by a vibrator, In this method, since the dewatering operation is not continuous, a considerable time is required for dewatering the water, and the dewatering power is limited to the expectation.

In order to solve the above-mentioned problems, the present invention is to solve the above-mentioned problems by finely grinding dredged dredged soil from dredged soil such as sand and soil dredged in a sewer pipe, dewatering water while transporting the ground dredged soil to a dehydrator, And a dredged soil dewatering method using the same.

The dewatered dredged soils of the present invention have excellent dewatering ability and can be used without the need for a separate field period. The degree of dewatering can be adjusted, so that moisture can be contained according to the purpose of use and the durability of the apparatus is also excellent. And a dredged soil dewatering method using the dredged soil dewatering apparatus.

The present invention also relates to a dredged soil storage tank in which a dredged soil is floated and discharged to the outside of a storage tank by using a stirrer, and the dredged soil is easily settled to the bottom of the storage tank and discharged to a conveyor, And a dredged soil dewatering method using the dewatered dredged soil dewatering apparatus.

The present invention also provides a dewatering apparatus for dewatering dewatering dewatering which is capable of naturally dewatering water naturally in a feeder while transferring dewatering soil from a storage tank to a dehydrator, .

In order to accomplish the above object, the present invention provides a method of dewatering dredged soil in a sewer, comprising: supplying dredged material dredged in a sewer to a storage tank through a dredged material inlet pipe;

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The dredged soil flowing into the storage tank 100 through the dredged soil inflow pipe 110 is agitated by the agitator 200 so that the suspended solids are discharged to the overflow pipe 120. The agglomerates are pulverized, ≪ / RTI >

The dredged soil precipitated in the lower part of the storage tank 100 is discharged through the tank discharge port 130 by using the screw impeller 240 provided under the stirrer shaft 210 of the stirrer 200, To a conveying conveyor (320) installed inside the container (310);

Discharging moisture into the conveyor case 310 while conveying the dredged soil to the conveying conveyor 320;

Discharging the dredged soil conveyed to the conveying conveyor 320 to the conveyor outlet 311 and into the conveyance case inlet 420 of the dehydrator 400;

The dredged soil charged into the transfer case 410 of the dehydrator 400 is transferred to the transfer screw 440 rotated by the dehydrator motor 430 while the first dewatering holes 411 provided on the outer circumferential surface of the transfer case 410, ≪ / RTI >

Dewatering secondarily the water with the second dewatering hole (451) while conveying the dredged soil into the compression case (450) provided at one end of the transfer case (410) by using the conveying screw (440)

The second dewatered dredged soil is conveyed to a reverse rotation case 460 provided at one end of the compression case 450 by a conveying screw 440 and rotated counterclockwise to the conveying screw 440, Dehydrating the water three times;

And discharging the compressed and dehydrated dredged soil from the reverse rotation case 460 to the armo-box 470.

The sewage dredging dewatering device of the present invention as described above and the dredged soil dewatering method using the same, finely grind dredged dredged soil from dredged soil such as sand and soil dredged in a sewer pipe, dewater water while transferring the dredged dredged soil to a dehydrator, The same dewatering operation can be performed continuously and quickly.

The dewatered dredged soils of the present invention have excellent dewatering ability and can be used without the need for a separate field period. The degree of dewatering can be adjusted, so that moisture can be contained according to the purpose of use and the durability of the apparatus is also excellent. Can be reduced.

The present invention also relates to a dredged soil storage tank in which a dredged soil is floated and discharged to the outside of a storage tank by using a stirrer, and the dredged soil is easily settled to the bottom of the storage tank and discharged to a conveyor, Can be easily dehydrated.

Further, the present invention has an effect that the dewatering force in the dehydrator can be increased by primarily dewatering moisture in the conveyer while transferring the dredged soil from the storage tank to the dehydrator.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an example of a sewer dredged soil dewatering apparatus according to the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dredged dredged soil dewatering apparatus.
3 is an exemplary view showing a plane of a sewer dredged soil dewatering apparatus according to the present invention.
4 is a view illustrating an agitator of a sewer dredged soil dewatering apparatus according to the present invention.
5 is an exemplary view showing a state in which the sewage dredge dewatering device according to the present invention is operated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the drawing, reference numerals 470 denote an amolbox.

1 to 3, the sewage dredge dewatering apparatus according to the present invention is provided with a dredged soil inflow pipe 110 at one side of the upper part, a drainage pipe 120 at the other side, and a tank discharge port 130 The storage tank 100 is provided with a storage tank (not shown).

The stirrer 200 includes an agitator shaft 210 vertically disposed at an inner center of the storage tank 100 and an agitator motor 220 for rotating the agitator shaft 210 at an upper end of the agitator shaft 210 The stirrer shaft 210 is provided with a plurality of paddles 230 protruding outward and a screw impeller 240 is provided at a lower end of the stirrer shaft 210.

4, the paddle 230 of the stirrer 200 is sloped downward from the upper left portion to the lower right portion around the stirrer shaft 210 at the upper and central radial positions of the stirrer shaft 210 A downwardly directed paddle 231 for guiding the dredged soil downward is provided at the upper and central radial positions of the stirrer shaft 210 opposed to the downwardly directed paddle 231, And upwardly guiding paddles 232 upwardly sloping upwards to guide the dredged soil upward.

The dredged soil on the inside of the rim of the storage tank 100 is connected to the outside of the downward induction paddle 231 and the upward induction paddle 232 to be inclined from the outer end to the inner end about the stirrer shaft 210, And a central induction paddle 233 leading to the center is provided.

Meanwhile, a conveyor 300 for conveying the dredged soil discharged from the storage tank 100 and a dehydrator 400 for draining the moisture of the dredged soil transferred by the conveyor 300 and introduced into the storage tank 100 are provided.

As shown in FIG. 2, the conveyor 300 is closed at four sides and the upper part is opened. One side of the conveyor 300 extends obliquely upward, a conveyor outlet 311 is provided at a lower portion of the conveyor 300, and a drain valve 312 A conveying conveyor 320 is provided in the conveying case 310 and a conveying conveyor 320 is operated at one side of the conveying case 311 A conveyor motor 330 is provided.

The dehydrator 400 has the same configuration as that of the normal rotation type dewatering screw press of the present applicant registered in Korean Patent Registration No. 1187322, and a detailed description thereof will be omitted.

The dewatering method of sewage sludge dredged soil according to the present invention will now be described.

First, as shown in FIG. 5, dredged dredged dredged by a vacuum suction car or a vacuum suction pump is supplied to the storage tank 100 through a dredged soil inflow pipe 110 in a sewer pipe.

The dredged soil that has flowed into the storage tank 100 through the dredged soil inflow pipe 110 is stirred by the agitator 200 to discharge the suspended solids into the overflow pipe 120. The lumps are crushed to the bottom of the storage tank 100 Sediment the dredged soil.

At this time, when the agitator motor 220 provided in the upper part of the storage tank 100 is operated, the vertical agitator shaft 210 coupled to the agitator motor 220 rotates, and the agitator shaft 210 The paddle 230 also rotates.

The paddle 230 is pivoted downward by a downwardly directed paddle 231 provided at an upper portion and a central radial position of the stirrer shaft 210 and downwardly inclined downward from the upper left portion to the lower right portion about the stirrer shaft 210 Which is provided at an upper portion and a central radial position of the agitator shaft 210 opposite to the downwardly directed paddle 231 and upwardly inclined upward from the lower left portion to the upper right portion about the stirrer shaft 210, The dredged soil is guided upward and stirred.

As described above, the dredged soil is alternately stirred downward and upward by the downward induction paddle 231 and the upward induction paddle 232 in the storage tank 100, so that the foreign matter and the suspended solids float up to the upper portion of the storage tank 100 And discharged to the outside of the storage tank 100 through the overflow pipe 120, and the dredged soil is settled to the lower part of the storage tank 100, that is, the bottom.

And is guided by the central induction paddle 233 which is inclined from the outer end to the inner end about the stirrer shaft 210 and coupled to the outside of the downward induction paddle 231 and the upward induction paddle 232, The dredged soil inside the tank 100 is guided to the center and precipitated as it is stirred.

The dredged soil settled in the lower part of the storage tank 100 is supplied to the bottom of the stirrer shaft 210 of the stirrer 200 through the tank outlet 130 through the rotating screw impeller 240, And is discharged to a conveying conveyor 320 installed inside the conveyor case 310.

Then, moisture is naturally discharged into the conveyor case 310 while conveying the dredged soil to the conveying conveyor 320.

The moisture discharged into the conveyor case 310 is drained to the outside of the conveyor case 310 through the drain valve 312 as described above.

Meanwhile, the dredged soil conveyed to the conveying conveyor 320 is discharged to the conveyor outlet 311 and then introduced into the conveyance case inlet 420 of the dehydrator 400.

The dredged soil charged into the transfer case 410 of the dehydrator 400 is transferred to the compression case 450 by the transfer screw 440 rotated by the dehydrator motor 430, The water is firstly dewatered by the first dewatering holes 411 provided in the main body.

The dredged primary dewatered as described above is conveyed to the inside of the compression case 450 provided at one end of the conveyance case 410 by the conveyance screw 440 and is compressed by the compression case 450 whose diameter gradually decreases The water is secondarily dehydrated by the second dehydration holes 451 provided on the outer circumferential surface of the compression case 450.

The dredged soil which is secondarily dewatered as described above is disposed at one side of the compression case 450 by the conveyance screw 440 and rotates in the opposite direction to the rotation direction of the conveyance screw 440, The water is twisted at the same time as the compression, and the water is dehydrated to the third degree.

The compressed and dewatered dredged soil is discharged from the reverse casing 460 to the arm box 470.

As described above, the sewage dredged soil dewatering apparatus and the dredged soil dewatering method using the same according to the present invention finely grind dredged dredged soil from dredged soil such as sand and soil dredged in a sewer pipe, dehydrate water while transporting the dredged dredged soil to a dehydrator, The dewatering operation can be performed continuously and quickly.

100: Storage tank
110: dredged soil inflow pipe 120:
130: tank outlet
200: stirrer
210: stirrer shaft 220: stirrer motor
230: paddle 231: downward induction paddle
232: Upward induction paddle 233: Central induction paddle
240: Screw impeller
300: conveyor
310: feeder case 311: feeder outlet
312: Drain valve 320: Flight conveyor
330: Conveyor motor
400: Dehydrator
410: transfer case 411: first dehydrating hole
420: Transfer case inlet 430: Dehydrator motor
440: Feed screw 450: Compression case
451: Second dehydrating ball 460: Reverse rotating case

Claims (4)

delete delete delete In the sewage dredging dewatering method,
Supplying dredged soil dredged from a sewer pipe to the storage tank 100 through a dredged soil inflow pipe 110;
The dredged soil flowing into the storage tank 100 through the dredged soil inflow pipe 110 is agitated by the agitator 200 so that the suspended solids are discharged to the overflow pipe 120. The agglomerates are pulverized, ≪ / RTI >
The dredged soil precipitated in the lower part of the storage tank 100 is discharged through the tank discharge port 130 by using the screw impeller 240 provided under the stirrer shaft 210 of the stirrer 200, To a conveying conveyor (320) installed inside the container (310);
Discharging moisture into the conveyor case 310 while conveying the dredged soil to the conveying conveyor 320;
Discharging the dredged soil conveyed to the conveying conveyor 320 to the conveyor outlet 311 and into the conveyance case inlet 420 of the dehydrator 400;
The dredged soil charged into the transfer case 410 of the dehydrator 400 is transferred to the transfer screw 440 rotated by the dehydrator motor 430 while the first dewatering holes 411 provided on the outer circumferential surface of the transfer case 410, ≪ / RTI >
Dewatering secondarily the water with the second dewatering hole (451) while conveying the dredged soil into the compression case (450) provided at one end of the transfer case (410) by using the conveying screw (440)
The second dewatered dredged soil is conveyed to a reverse rotation case 460 provided at one end of the compression case 450 by a conveying screw 440 and rotated counterclockwise to the conveying screw 440, Dehydrating the water three times;
And discharging the compressed dewatered dredged soil from the reverse rotation case (460) to the armo-box (470).

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