KR101185493B1 - A Treating System and Mothod of Sand Sedimentation separation - Google Patents

Abstract

The present invention can easily and easily withdraw the contaminants such as large gravel in the contaminants by vibrating the vibrator screen in advance, and the cleaning work of the sediment that flows downward by its own weight without the need for a separate washing machine Of course, the removal of the contaminants and the transfer of the sediment without the need for a separate contaminant conveying pump, and the conveyed sediment is introduced into the porous lattice-type rotating screen to rotate at low speed, and automatically stirred and the The washing nozzle installed on the upper side of the porous lattice rotating screen is easy and easy to carry out the washing operation at the same time, and the second through the washing nozzle when transferring the sediment passed through the porous lattice rotating screen through the inclined screw conveyor. The cleaning operation can be performed smoothly, and is supplied through the inclined screw conveyor Secondary washing sediment can be performed in the stirrer in the immersion dehydrator through the third washing and the down screw and the up screw to perform the stirring and washing of the sediment in a certain state, and accordingly to the anaerobic material attached to the sediment. It is possible to quickly and smoothly perform the cleaning and separation operations, to prevent the occurrence of odor of the sediment discharged to the outside of the sediment separator, and to easily and easily recycle the sediment discharged to the outside. The present invention relates to a sedimentation separation treatment method and apparatus for maximizing the separation and cleaning treatment efficiency of sediment by means of a relatively simple configuration.
Its technical configuration is that a vibrator screen is installed to vibrate to remove the impurities of a certain size to the upper side of the storage hopper by vibrating, and at one end of the vibrator screen, a balanced belt conveyor is addressed to the junk box, the storage hopper At the lower side, a screw conveyor is installed with the motor so that the sediment flowing into the lower part by the self-weight is transported. The end of the screw conveyor is connected with a porous lattice rotating screen which is driven to rotate at low speed. A plurality of cleaning nozzles are installed on the upper side of the screen via a washing tube to perform agitation and primary cleaning of the sediment. The screw conveyor is inclined at the lower end of the porous grid rotating screen via the inlet. Is installed, one end of the rotating screen bridge It is communicated with the settling sedimentation tank which is light sized or less and the washing water is returned. The settling sediment is introduced into the settling water supply pipe of the sedimentation dehydrator as air. While the supply pipe is communicated in a continuous manner, a plurality of cleaning nozzles are provided at the upper part of the inclined screw conveyor for the second cleaning of the conveyed sediment, and the second cleaned sediment is disposed below the end of the inclined screw conveyor. A sedimentation dehydrator in which a sediment supply pipe is formed is introduced, and a cleaning tank communicates with the lower side of the sediment supply pipe of the immersion dehydrator, and an upper side of the cleaning tank is speeched with a driving motor to stir the sediment to perform third cleaning and The stirrer for separating organic matters is installed in a horizontal direction, and the needle inside the washing tank. A downward screw for forcibly moving the object and an upward screw for continuously receiving the sediment carried in the downward screw and transported upwards are vertically inserted through the partition wall. Conveyor for conveying the speech is oriented in the vertical direction, the main end of the conveyor is provided with a deposit storage box for storing the deposit.

Description

A Treating System and Mothod of Sand Sedimentation separation

The present invention enables the third washing and segregation of sediments to be carried out quickly and smoothly, while the sedimentation separation processing system and treatment for maximizing the separation and cleaning treatment efficiency by the relatively simple configuration. In particular, it is easy to easily and easily take out a contaminant, such as large gravel, among the contaminants introduced into a storage hopper by vibrating the vibrator screen, and then automatically extract the contaminant through a balance belt conveyor. In addition to the transfer and storage, it is also possible to remove the contaminants and transfer the sediment without the need for a separate contaminant conveying pump, the sediment from which the contaminants have been removed flows into the porous lattice rotating screen that rotates at low speed, Automatically stirring and through the cleaning nozzle installed above the rotating screen 1 While the cleaning operation can be performed easily and easily at the same time, the second cleaning operation can be smoothly performed through the cleaning nozzle when transferring the sediment passed through the porous grid rotating screen through the inclined screw conveyor. Secondary washing sediment supplied through the inclined screw conveyor, through the third washing and the down screw and the up screw in the stirrer in the immersion dehydrator, it is possible to perform the stirring and washing dehydration operation of the sediment in a certain state, Accordingly, it is possible to quickly and smoothly perform the cleaning and dehydration separation of the anaerobic material attached to the sediment, and to prevent the occurrence of odor of the sediment discharged to the outside of the sediment separator before being discharged to the outside. It is easy and easy to recycle the sediment, and the relatively simple configuration It relates to a needle thread separating the integrated processing system and method to maximize the water separation and cleaning process efficiency.

In general, dredging is generally known to remove soil or rocks stacked on the bottom of rivers, shores, or sewers to deepen the bottom of rivers, sewers, etc. Sand or contaminants are called dredges, and if sand or contaminants accumulate deeply in the river or sewage for a certain period of time, the depth of the river or sewer becomes shallow as well as causing environmental pollution. As a dredging operation to remove the dredged stacked on the bottom of the river or sewer.

At the bottom of coastal water and sewage, the pollutants are already being polluted by pollutants accumulated in the past, pollutants from natural ecosystems, and pollutants flowing from tributaries and streams. Soils and contaminated sediments can be a fundamental cause of water pollution. Especially, contaminated sediments that accumulate at the bottom of rivers or lakes, which are the source of most people's water supply, can have serious adverse effects on the human body.

Therefore, the dredged soil has already been dredged for a long time, and in Korea, the recent development of technology for the purification of dredged contaminated soil and contaminated sediments is required.

On the other hand, in recent years, while the dredged water deposited on the bottom of rivers or sewers can be efficiently separated and discharged by size within a short time, the dredged water treatment system that can be recycled as construction materials and cover to separate discharged by size of dredged water It is known from Republic of Korea Patent No. 10-0969824.

That is, the technical configuration is as shown in Figure 1, the coarse wood screen that first captures the first size of the dredged or more of the dredged above the storage hopper 30, dredged from the dredging vehicle 1 ( 10) is installed, and the washing water is supplied to the top of the coarse wood screen 10 through the washing water supply 20 to provide fluidity to the dredged water, and is installed below the coarse wood screen 10 Inlet tank 40 is installed to accommodate the secondary dredging passed through the coarse wood screen 10, the secondary dredging flowing into the inlet tank 40 is installed inclined in the vertical direction The screen-type dust removal device 50 is transferred to the contaminant discharging container 57 via the contaminant discharging conveyor 55, and the ultra fine contaminants are transferred to the contaminant scrubber 60 through the contaminant conveying pump 62. By sedimentation export conveyor 65 After being transported and discharged to the settling-out container (67) to be recycled to construction materials and cover, etc. At this time, after the washing water in the inflow tank (40) is collected using the bottom drain pump (72), The washing water remaining after the washing from the contaminant scrubber 60 is collected and introduced into the wastewater treatment plant 80 using the treated water transfer pump 82.

Therefore, while imparting fluidity to the dredged water through the washing water supplied through the washing water supply unit 20, the trapping material of the first size or more of the dredged water is first captured through the coarse wood screen 10, and then the inflow tank ( 40) and then segregate the fine contaminants in the second through the separate bar-item-integrated bar screen type vibrator (50), the ultra-fine contaminants are transferred to the contaminant scrubber (60) through the contaminant transfer pump 62 , Sand, etc. are transported and discharged to the sedimentation and discharging container 67 by the sedimentation and discharging conveyor 65.

However, in the case of the dredged water treatment system as described above, a large sized contaminant such as a lumber or a PET bottle is coarse by spraying the washing water supplied through the washing water supply unit 20. The quasi-presents are removed by secondly transporting contaminants such as sand and gravel having a large diameter through the small-segmented bar-integrated type bar screen type vibrator 50 which is installed at an initial separation through the screen 10 and inclined in the vertical direction. Removal of impurities inside is cumbersome, and this imparts fluidity by spraying the washing water through a separate washing water supply 20, which is complicated in structure.

In particular, the ultrafine condensate transferred to the contaminant removal container 57 via the bar screen type vibrator 50 is transferred to the contaminant washer 60 through the contaminant conveyance pump 62 and subjected to a cleaning operation. By directly transporting through the sedimentation discharge conveyor 65, the transferred sand is no separate dehydration operation, it is difficult to immediately recycle the non-dehydrated sand, as well as transported to the contaminant scrubber 60 When the contaminant conveying pump 62 is installed so that the sand and the like are transported by centrifugal force while rotating at high speed, the impeller and the casing inside the contaminant conveying pump easily wear out and break down due to friction with sand. There were many problems, including delays in dredging treatment.

SUMMARY OF THE INVENTION The present invention has been made to improve the above-mentioned conventional problems, and an object thereof is to easily and easily take out a contaminant such as gravel having a large size in the contaminant introduced into a storage hopper by vibrating the vibrator screen in advance. After that, it is possible to automatically transport and store the contaminants through a balance belt conveyor, and to remove the contaminants and transfer the sediment without the need for a separate contaminant conveying pump, and the sediment from which the contaminants have been removed is low speed. Flows into the porous lattice rotating screen which is driven to rotate, and the automatic lattice rotating screen can be easily and easily performed at the same time through the stirring nozzle and the washing nozzle installed above the rotating screen. The cleaning nozzle when transferring the coarse sediment through the inclined screw conveyor The secondary cleaning work can be performed smoothly through the secondary washing sediment supplied through the inclined screw conveyor through the third washing in the stirrer in the immersion dehydrator and through the downward screw and the upward screw, It is possible to perform agitation and washing of the dehydration, and accordingly to perform the cleaning and dehydration separation of the anaerobic material attached to the sediment quickly and smoothly, the sediment discharged to the outside of the sediment separator It is possible to prevent the occurrence of odors in advance, and to easily and easily recycle the sediment discharged to the outside, and the sedimentation separation processing system that can maximize the separation and cleaning treatment efficiency by the relatively simple configuration. To provide.

In addition, the present invention is to provide a sedimentation separation processing method that can maximize the separation and cleaning treatment efficiency of the sediment by a relatively simple configuration.

The present invention as a technical means for achieving the above object, in the sedimentation separation processing system,

A vibrator screen is installed on the upper side of the storage hopper where dredged water is dripped from the dredging vehicle to vibrate to remove the impurities of a predetermined size by vibrating. The screw conveyor is installed to the lower side of the storage hopper and the sediment flowing into the lower portion by its own weight is transferred to the motor, and the end of the screw conveyor is rotated at a low speed by being rotated with the motor and the reducer to form a porous grid. A rotating screen is connected and installed, and a plurality of cleaning nozzles are installed on the upper side of the porous lattice rotating screen through a washing tube to perform agitation and primary cleaning of the sediment, and the other end of the porous lattice rotating screen. Screw concave on the lower side through the inlet An ear is installed, and at one end of the rotating screen, a conveying pipe for conveying the immersion material having a predetermined size or less, which is washed with stirring light, and the washing water is conveyed, and the conveying pipe is communicated with the sedimentation settling tank. And an air lift is introduced, and the air lift has a supply pipe communicating so that the precipitated sediment is introduced into the sediment supply pipe of the sedimentation dehydrator as air, while the sediment is conveyed on top of the inclined screw conveyor. A plurality of cleaning nozzles for the secondary cleaning are installed, and the lower side of the inclined screw conveyor has a sedimentation dehydrator in which a sediment supply pipe is formed so that the secondary cleaned sediment is introduced, and the lower side of the sediment supply pipe of the sedimentation dehydrator. The cleaning tank is communicated to the communication tank, and the upper side of the cleaning tank is speeched to the driving motor to settle the sediment. A stirrer is installed in the horizontal direction to perform the third washing and organic matter separating operation by stirring, and the washing tank has a downward screw forcibly moving the sediment downward, and receives the sediment transported from the downward screw continuously. Upward screws to be conveyed toward each other are installed vertically through the partition wall, a conveyor for transporting the sediment in the lower portion of the discharge port of the sedimentation dehydrator is spoken in the vertical direction, the sediment storage box for storing the sediment at the conveyor end By providing a sedimentation separation processing system, characterized in that consisting of a configuration that is installed.

In addition, the present invention in the sedimentation separation processing method,

Filling the inside of the storage hopper with dredged water by washing water being filled in the storage hopper;

Removing the contaminants having a predetermined size or more by vibrating through a vibrator screen installed above the storage hopper, and then transferring the contaminants to the contaminant box through a balanced belt conveyor addressed to one end of the vibrator screen;

Transferring the sediment introduced into the lower portion by self weight to a porous grid rotating screen through a screw conveyor installed under the storage hopper;

Rotating the sediment introduced into the porous grid rotating screen to the motor and the reducer at a low speed of 10 ~ 20RPM, and at this time, a plurality of cleaning nozzles are installed on the upper side of the porous grid rotating screen via a washing tube. Stirring and first cleaning the lattice rotating screen sediment;

Through the inlet communicated to the lower end of the other end of the rotating screen, the precipitated and first-sized fixed deposits are discharged to the inclined screw conveyor, and through the washing nozzle and the washing nozzle extended to the inclined screw conveyor. Introducing a sediment into the sedimentation dehydrator which is installed at one end thereof while performing the second cleaning operation of the conveyed sediment;

The settled water of a predetermined size or less washed with stirring light in the rotating screen is introduced into the settling sedimentation tank through the conveying pipe, and then settled, and the settling water precipitated through the blower and the air lift delivered to the settling dehydrator through the supply pipe. Allowing the inlet to feed into the sediment supply pipe;

The sediment introduced through the sediment supply pipe of the sedimentation dehydrator is introduced into the washing tank at the lower side thereof, and the third washing and the organic matter separating operation by stirring the sediment evenly through a stirrer installed horizontally on the upper washing tank. Performing;

The 3rd washed sediment by stirring with the stirrer is a downward screw vertically placed inside the washing tank forcibly moving the sediment down, and the forklift forcedly transported as the downward screw interposed a partition wall on one side of the downward screw. Receiving a continuous through the upright screw placed vertically and transported to the upper side to perform the dehydration separation work of the sediment; And

It is characterized in that it comprises a step of transporting the sediment discharged through the discharge port installed inclined to the upper side of the sedimentation dehydrator to the sediment storage box while the moisture is discharged to its own weight through a conveyor placed in the vertical direction on one side of the sedimentation dehydrator; By providing a comprehensive treatment method for sedimentation.

According to the present inventors' sedimentation separation processing system and processing method, after collecting a contaminant such as gravel having a large size in the contaminant introduced into the storage hopper easily and easily by vibrating the vibrator screen in advance, the contaminant is equilibrated. It is possible to automatically transfer and store through the belt conveyor, and also to remove the contaminants and transfer the sediment without the need for a separate contaminant conveying pump, and the porous sediment with the debris removed has been rotated at low speed It flows into the rotating screen to automatically and easily carry out the first cleaning operation through the stirring nozzle installed on the upper side of the rotating screen at the same time, while tilting the sediment through the porous lattice rotating screen. During the transfer through the screw conveyor, the second cleaning operation can be performed smoothly through the cleaning nozzle. Secondary washing sediment supplied through the inclined screw conveyor is carried out in the stirrer in the immersion dehydrator through the third washing and the down screw and the up screw, to perform the stirring and washing dehydration of the sediment in a certain state. In this way, it is possible to quickly and smoothly perform the cleaning and dehydration separation of the anaerobic material attached to the sediment, and to prevent the occurrence of odor of the sediment discharged to the outside of the sediment separator. In addition, the sediment discharged to the outside can be easily and easily recycled, and by the relatively simple configuration, there is an excellent effect of maximizing the separation and cleaning treatment efficiency of the sediment.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the following claims. It will be appreciated that those skilled in the art can easily know.

1 is a schematic configuration diagram of a conventional dredged water treatment system.
Figure 2 is a schematic configuration diagram of the sedimentation separation processing system according to the present invention.
Figure 3 is a front sectional structure diagram of the sedimentation dehydrator installed in the present inventors sedimentation separation processing system.
4 is a flow chart for the sedimentation separation process according to the present invention.
Description of the Related Art
100 dredging vehicle 110 storage hopper
120 ... vibrator screen
130 ... flat belt conveyor 140 ... binder box
150 ... porous grid rotating screen 160, 160 '... cleaning nozzle
161 ... cleaner 170 ... screw conveyor
171.Sediment inlet 180 ... Sedimentation dehydrator
181.Sediment supply pipe
190 cleaning tank 200 stirrer
201 ... Drive motor 210 ... Down screw
220 ... up screw 230 ... bulk
240 Conveyor 250 Sediment Storage Box
260 ... return tube 270 ... sedimentation settler
280 ... blower 290 ... air lift
300 ... Supply line M ... Motor
C ... screw conveyor

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

Figure 2 is a schematic configuration diagram of the sedimentation separation processing system according to the present invention, Figure 3 is a cross-sectional structure diagram of the sedimentation dehydrator installed in the present invention the sedimentation separation processing system and Figure 4 is for the sedimentation separation process according to the present invention As a flow chart, a vibrator screen 120 is installed on the upper side of the storage hopper 110 through which dredged water is dropped from the dredging vehicle 100 to vibrate to remove impurities of a predetermined size or more by vibrating. At one end of the 120, the balance belt conveyor 130 is spoken to be in contact with the clutter box 140.

In addition, the lower side of the storage hopper 110 is provided with a screw conveyor (C) in which the sediment introduced into the lower portion by its own weight is conveyed to the motor (M), the end of the screw conveyor (C) motor and reducer A porous lattice rotating screen 150 that is rotated and driven at a low speed by being speeched (not shown) is installed, and the washing nozzle 160 is disposed on the upper side of the porous lattice rotating screen 150 via a washing tube 161. A plurality of these are installed to perform agitation and primary cleaning of the sediment.

At this time, at one end of the rotating screen 150, the conveying pipe 260, which is carried out by stirring and primary cleaning, the sintered material having a predetermined size or less, and the washing water is conveyed, and the conveying pipe 260 is the settling precipitation tank 270. It is communicated with the air, the inside of the sedimentation settling tank 270, the air lifter 290 and the air blower 280 is installed in the air, the air lift 290 is settled sediment of the sedimentation of the sedimentation dehydrator 180 as air The supply pipe 300 is communicated so as to flow into the thing supply pipe 181.

In addition, the screw conveyor 170 is inclined through the immersion inlet 171 so that the immersion through the porous lattice rotating screen 150 is introduced into the lower side of the end of the porous lattice rotating screen 150. A plurality of cleaning nozzles 160 'are installed on the inclined screw conveyor 170 for the second cleaning of the transported sediment, and the second cleaning is provided at the lower end of the inclined screw conveyor 170. The sedimentation dehydrator 180 is formed so that the sediment supply pipe 181 is formed so that the sediment is introduced.

In addition, the cleaning tank 190 is communicated to the lower side of the immersion supply pipe 181 of the immersion dehydrator 180, and the driving motor 201 is uttered on the upper side of the cleaning tank 190 to stir the immersion 3 An agitator 200 for performing a secondary cleaning and organic matter separation operation is installed in a horizontal direction, and in the washing tank 190, a downward screw 210 forcibly moving down the sediment and the downward screw 210. The upward screw 220 which receives the conveyed sediment continuously and conveys it upwards is vertically interposed through the partition 230.

In addition, a conveyor 240 operated by a chain or pneumatic pressure is conveyed in a vertical direction to one side of the discharge port 183 of the immersion dehydrator 180 so as to transfer the third washed immersion material in a vertical direction, and at the end of the conveyor 240. It consists of a configuration that is installed a sediment storage box 250 for storing the sediment.

Hereinafter, an embodiment of the present invention will be described in detail.

2 to 4, in the state in which the washing water 101 is filled in the storage hopper 110 through which the dredged water is dropped from the dredging vehicle 100, the upper side of the storage hopper 110 is located. A vibrator screen 120 is installed, and through the vibrator screen 120 to easily and easily pull out a contaminant such as gravel or the like over a predetermined size by vibration, and then end one side of the vibrator screen 120. After the contaminants are transported through the balanced belt conveyor 130 to be addressed, the contaminant box 140 is automatically stored.

In addition, the storage hopper 110 is installed under the screw conveyor (C) that is extended to the motor (M), and transfers the sediment flowing into the lower portion by the self-weight to the porous grid-type rotating screen 150, The porous grid rotating screen 150 is spoken with a motor and a reducer (not shown) to rotate the sediment introduced into the porous grid rotating screen 150 at a low speed of 10 to 20 RPM. A plurality of cleaning nozzles 160 are installed on the upper side of the lattice rotating screen 150 via a washing tube 161, so that the first washing operation can be performed at the same time with stirring the sediment inside the porous lattice rotating screen. It should be easy to carry out.

At this time, when the rotational speed of the porous lattice-shaped rotating screen 150 into which the sediment is introduced rotates at a low speed of 10 RPM or less, the rotational speed of the porous lattice-rotating screen 150 becomes too slow, Agitation and cleaning of the sediment is not made properly, when the rotational speed of the porous lattice-shaped rotating screen 150 is 20RPM or more, the inside of the sediment is stuck due to the centrifugal force is also due to the stirring is not made properly As in the present invention, the rotational speed of the porous grid-shaped rotating screen 150 is preferably rotated at a speed of 10 ~ 20RPM.

In addition, the sediment passed through the porous lattice-shaped rotating screen 150 is discharged and transported to the inclined screw conveyor 170 which is installed on the lower side, and then installed in the upper part of the inclined screw conveyor 170. The secondary cleaning operation is performed during the transfer through the cleaning nozzle 160 ′, and the secondary cleaning is performed by using the immersion water supply pipe 181 of the immersion dehydrator 180 installed under the end of the inclined screw conveyor 170. The settled sediment will flow smoothly.

On the other hand, the settled water and the washing water of a predetermined size or less washed by the stirring screen in the rotating screen 150 is introduced into the settling sedimentation tank 270 through the conveying pipe 260, and then settled, the air blown with the blower 280 Through the lift 290, the precipitated sediment is supplied to the sediment inlet 171 of the inclined screw conveyor 170 through the supply pipe 300.

Subsequently, the secondary washed sediment introduced into the sediment supply pipe 181 of the sedimentation dehydrator 180 through the inclined screw conveyor 170 is introduced into the washing tank 190 under the lower side thereof. Through the stirrer 200 installed in the horizontal direction in the upper side of the cleaning tank 190, the sediment is evenly stirred to perform the third cleaning and organic matter separation operation.

The sediment stirred as the stirrer 200 in the upper portion of the washing tank 190 is forced downward movement of the sediment as a downward screw 210 vertically placed inside the washing tank 190, and the downward screw ( The sediment forcibly conveyed as 210 is continuously received through the upward screw 220 vertically placed through the partition 230 on one side of the downward screw 210 to be transported upward to perform the separation operation of the sediment. The agitation and washing operations of the sediment can be performed in a certain state, and accordingly, the third washing and dehydration separation operations of the anaerobic material attached to the sediment can be quickly and smoothly performed.

In addition, after the agitation and cleaning work is completed as described above, the discharged through the discharge port 183 is installed inclined to the upper side of the immersion dehydrator 180, the chain or immersed in a vertical direction on one side of the immersion dehydrator 180 or As the moisture is discharged into the weight of the sediment during the conveyance through the conveyor 240 operated by pneumatic pressure, it is transferred to the sediment storage box 250, so that the sediment can be easily and easily recycled.

Claims (2)

In the sedimentation separation processing system,
A vibrator screen is installed on the upper side of the storage hopper where dredged water is dripped from the dredging vehicle to vibrate to remove the impurities of a predetermined size by vibrating. The screw conveyor is installed to the lower side of the storage hopper and the sediment flowing into the lower portion by its own weight is transferred to the motor, and the end of the screw conveyor is rotated at a low speed by being rotated with the motor and the reducer to form a porous grid. A rotating screen is connected and installed, and a plurality of cleaning nozzles are installed on the upper side of the porous lattice rotating screen through a washing tube to perform agitation and primary cleaning of the sediment, and the other end of the porous lattice rotating screen. Screw concave on the lower side through the inlet An ear is installed, and at one end of the rotating screen, a conveying pipe for conveying the immersion material having a predetermined size or less, which is washed with stirring light, and the washing water is conveyed, and the conveying pipe is communicated with the sedimentation settling tank. And an air lift is introduced, and the air lift has a supply pipe communicating so that the precipitated sediment is introduced into the sediment supply pipe of the sedimentation dehydrator as air, while the sediment is conveyed on top of the inclined screw conveyor. A plurality of cleaning nozzles for the secondary cleaning are installed, and the lower side of the inclined screw conveyor has a sedimentation dehydrator in which a sediment supply pipe is formed so that the secondary cleaned sediment is introduced, and the lower side of the sediment supply pipe of the sedimentation dehydrator. The cleaning tank is communicated to the communication tank, and the upper side of the cleaning tank is speeched to the driving motor to settle the sediment. A stirrer is installed in the horizontal direction to perform the third washing and organic matter separating operation by stirring, and the washing tank has a downward screw forcibly moving the sediment downward, and receives the sediment transported from the downward screw continuously. Upward screws to be conveyed toward each other are installed vertically through the partition wall, a conveyor for transporting the sediment in the lower portion of the discharge port of the sedimentation dehydrator is spoken in the vertical direction, the sediment storage box for storing the sediment at the conveyor end Sedimentation separation processing system, characterized in that consisting of a configuration that is installed.
In the sedimentation separation processing method,
Filling the inside of the storage hopper with dredged water by washing water being filled in the storage hopper;
Removing the contaminants having a predetermined size or more by vibrating through a vibrator screen installed above the storage hopper, and then transferring the contaminants to the contaminant box through a balanced belt conveyor addressed to one end of the vibrator screen;
Transferring the sediment introduced into the lower portion by self weight to a porous grid rotating screen through a screw conveyor installed under the storage hopper;
Rotating the sediment introduced into the porous grid rotating screen to the motor and the reducer at a low speed of 10 ~ 20RPM, and at this time, a plurality of cleaning nozzles are installed on the upper side of the porous grid rotating screen via a washing tube. Stirring and first cleaning the lattice rotating screen sediment;
Through the inlet communicated to the lower end of the other end of the rotating screen, the precipitated and first-sized fixed deposits are discharged to the inclined screw conveyor, and through the washing nozzle and the washing nozzle extended to the inclined screw conveyor. Introducing a sediment into the sedimentation dehydrator which is installed at one end thereof while performing the second cleaning operation of the conveyed sediment;
The settled water of a predetermined size or less washed with stirring light in the rotating screen is introduced into the settling sedimentation tank through the conveying pipe, and then settled, and the settling water precipitated through the blower and the air lift delivered to the settling dehydrator through the supply pipe. Allowing the inlet to feed into the sediment supply pipe;
The sediment flowing through the sediment supply pipe of the sedimentation dehydrator is introduced into the washing tank at the lower side thereof, and the third washing and the dehydration organic matter are separated by stirring the sediment evenly through a stirrer installed horizontally on the upper washing tank. Performing a task;
The 3rd cleaning dehydrated sediment by stirring with the stirrer is a downward screw vertically placed inside the cleaning tank forcibly moving the sediment down, and the sediment forcibly transferred as the downward screw has a partition wall on one side of the downward screw. Receiving continuously through an upwardly screwed up screw inserted through the upper screw, and carrying the upper portion upward to perform separation of the sediment; And
It is characterized in that it comprises a step of transporting the sediment discharged through the discharge port installed inclined to the upper side of the sedimentation dehydrator to the sediment storage box while the moisture is discharged to its own weight through a conveyor placed in the vertical direction on one side of the sedimentation dehydrator; Total treatment method of sedimentation by using.

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