KR20120105770A - Dredging apparatus of exhaust possibility filtration system - Google Patents

Abstract

PURPOSE: A drainage filtering apparatus from a dredging process is provided to increase the efficiency of the dredging process by easily eliminating foreign materials without replacing a cylindrical filter. CONSTITUTION: A drainage filtering apparatus from a dredging process includes a chamber-shaped casing(2), a cylindrical filter(3), a driving gear(4), and a sucking nozzle(7). An outlet is formed at one lower side of the casing. The cylindrical filter is installed on the inner center shaft of the casing to be rotated. The cylindrical filter is fixed by a first filter fixing plate(12) and a second filter fixing plate(13). The first filter fixing plate includes a hollow supporting pipe(16). An inlet(10) is in connection with the second filter fixing plate. The driving gear is combined with the hollow supporting pipe and is engaged with the shaft gear of a hydraulic motor to rotate the cylindrical filter. The sucking nozzle is adjacent to the inner side of the cylindrical filter.

Description

Effluent filtration system discharged during dredging business {DREDGING APPARATUS OF EXHAUST POSSIBILITY FILTRATION SYSTEM}

The present invention relates to a filtration device that can filter the discharged water discharged during sea dredging, river dredging, fishery purification, route dredging and various dredging construction, more specifically, the filter device for filtering the supernatant water from which the aggregate is removed from dredging The present invention relates to an effluent filtration device discharged during a dredging project to prevent the surrounding water quality from being contaminated by foreign matters and suspended matters by discharging to the outside, and to easily remove sludge and foreign matters stuck to the inside and outside of the filter.

In general, various types of sediments and sludges exist on the seabeds of oceanic sewers, closed seas, farmed fisheries and port areas, and the bottoms of rivers, lakes and reservoirs. These deposits and various sludges are one cause of accelerating water pollution and destroying the ecological environment. In addition, if the riverbed is a river that is higher than the surrounding flat stream, the dredging must be dredged and the bottom of the river is not maintained, which causes flooding of the rivers and flooding the surrounding fields and villages. Therefore, these sediment and sludge can be removed by dredging using a dredger, and the dredger is equipped with appropriate facilities and equipment, respectively, depending on the depth of the dredging water, the type of soil at the bottom, and the transport distance of dredged material. Dredging works to deepen the depths of rivers, canals, ports and routes, collecting soil, sand and minerals including sludge under water, foundation construction of underwater structures, and lifting and removing seabed waste Used for work.

The dredging method commonly used to carry out such work is that even if the dredged sediment and sludge cannot be effectively separated or separated, it takes a long time to separate them. It can also be a secondary pollution when spilled into the air.

In the domestic situation, dredging technology simply finishes discharge of supernatant from dredged water through sedimentation process and dehydrates the remaining dredged water and sends the dehydrated sediment to the yard for reclamation. This is still a problem, but the technology to deal with it has not been secured.

Therefore, even in the process of filtering the final discharge water, the foreign matter gathered in the filter to close the hole formed in the filter to reduce the filtration efficiency, there is a problem that the process of separating and cleaning or replacing the filter every predetermined time.

The present invention is to solve such a problem, and the purpose of filtering the supernatant by rotating the foreign matter contained in the supernatant through a cylindrical filter installed in the center of the filtering device by introducing the separated supernatant after precipitation of the water generated during dredging In addition, it is related to the effluent filtration device discharged during dredging project, which aims to easily remove foreign substances without disassembling for cleaning of filter.

In order to achieve the object of the present invention

A casing in the form of a chamber having a discharge port formed at one lower side thereof;

A cylindrical filter installed to be rotated on the inner central axis of the casing and fixed by a first filter fixing plate having a hollow support tube and a second filter fixing plate connected to an inlet;

A drive gear coupled to the hollow support tube of the first filter fixing plate to engage the shaft gear of the hydraulic motor to rotate the cylindrical filter;

It is characterized in that it comprises a suction nozzle which is installed close to the inside of the cylindrical filter to remove the foreign matter and suspended matter by the suction force of the suction pump installed on one side.

The suction nozzle is characterized in that the suction nozzle is installed on the inner and outer surfaces of the cylindrical filter.

The cylindrical filter is characterized in that the suction nozzle is installed in the inner shell and the injection nozzle is installed on the outside.

The turbidimeter is installed on one side of the casing, so that the turbidity of the filtrate filtered from the filter can be confirmed.

The present invention thus obtained is introduced into the separated supernatant after sedimentation of the water generated during dredging to rotate the foreign matter contained in the supernatant through a cylindrical filter installed in the inner center of the filtering device to filter the supernatant and at the same time adhered to the cylindrical filter It is to provide a effluent filtration device that is discharged during dredging projects that can prevent water pollution during dredging by simply and easily removing suspended solids.

As described above, the present invention dredged by introducing the separated supernatant after sedimentation to filter foreign matter and suspended matter contained in the supernatant through the cylindrical filter, and to easily remove the foreign matter without replacing the cylindrical filter. Increased work efficiency and environmentally friendly effects

1 is a cross-sectional view of the filtering device to filter the treated water generated during dredging of the present invention.
2 is a side view of the filtration device of the present invention;
Figure 3 is a cross-sectional view of the filtration device of the suction nozzle is installed on the inner and outer surfaces of the cylindrical filter of the present invention.
4 is a block diagram of a dredging system equipped with the filtration device of the present invention.

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

1 is a cross-sectional view of a filtration device that can filter the treated water generated during dredging of the present invention, Figure 2 is a side view of the filtration device of the present invention.

The filtration apparatus of the present invention is a casing (2) for receiving the filtered water, a cylindrical filter (3) for filtering the supernatant water precipitated water generated during dredging in the casing and the drive gear for rotating the cylindrical filter (3). (4) and a hydraulic motor (5), a suction nozzle (7) and a suction pump (8) for separating and absorbing external suspended matter and foreign matter in the cylindrical filter.

The sand and aggregate dredged by the bucket of the dredging device of the present invention as described above are separated and treated by a sorter, wherein the water that is pumped together is collected and settled in the settling tank.

The supernatant of the precipitated water is introduced into the cylindrical filter 3 through the inlet pipe 10 of the filtration device 1 connected to one side.

The cylindrical filter drives the drive gear 4 connected to the hydraulic motor shaft gear 6 by driving the hydraulic motor 5 on one side.

The drive gear 4 is coupled to the hollow support tube 16 formed integrally with the central portion of the first filter fixing plate 12 on one side to which the cylindrical filter 3 is coupled to transmit the driving force of the hydraulic motor to the cylindrical filter to rotate. Let's do it.

At this time, the supernatant of the sedimentation tank is introduced into the cylindrical filter from the inlet pipe 10 connected to the center of the second filter fixing plate, and the supernatant is collected in the casing by the rotation of the cylindrical filter, and foreign substances and suspended matter remain in the cylindrical filter.

Since the cylindrical filter is rotated, the filtration efficiency of the supernatant introduced by centrifugal force is increased.

That is, the supernatant introduced into the cylindrical filter 3 rotates the cylindrical filter, so that the centrifugal force to be sprinkled outward by the rotational force thereof increases the filtration efficiency.

 As described above, the cylindrical filter for filtering the supernatant water has a suspended matter and foreign matter adhered to the inner wall, and thus the filtration efficiency decreases. By suctioning and transporting to a separate treatment tank, the cylindrical filter can smoothly filter the supernatant water.

In the present invention, in order to separate the foreign matter and suspended solids stuck to the cylindrical filter in the process of filtering the supernatant generated during dredging, the separation of the supernatant by simply separating and using the suction nozzle and the suction pump (8) without disassembling the cylindrical filter separately. In addition to increasing the filtration treatment efficiency, the increase rate of dredging can be improved.

In addition, in the present invention, as shown in FIG. 2, the cylindrical filter installed on the inner center axis of the casing 2 is coupled to each other by the first filter fixing plate 12 and the second filter fixing plate 13 to have a cylindrical shape. The edges of the first filter fixing plate 12 and the second filter fixing plate 13 are formed with guide rails 14 along the circumference thereof, and the guide rails thereof correspond to the two rollers 15 installed at the lower end thereof, and have a cylindrical filter 13. ) Is supported by the drive gear 4 and the hydraulic motor 5 when rotating. That is, the cylindrical filter is rotated in a manner in which the cylindrical guide rail is mounted on the two rollers 15, and the two rollers are rotated while being supported corresponding to the guide rails.

In addition, the filtration device of the present invention is installed to the turbidimeter 20 on one side of the casing (2) to check the turbidity of the discharged water filtered by the centrifugal force from the filter.

The turbidimeter 20 is installed on the inlet pipe 10 side of the filtration device and the lower side of the casing (2) that is filtered and stored to measure the turbidity before filtering and the turbidity after filtration as necessary, and Measure the effluent turbidity so that the circular filter can be cleaned.

The turbidimeter 20 can be displayed as a digital sensor or instrument from the outside as an electrical sensor.

The present invention is installed on the discharge pipe discharged to discharge the discharge water is automatically shut off when the turbidity of the drainage water is high and foreign matter stuck to the cylindrical filter (3) through the bleed nozzles (7) (7 ') by operating the suction pump Remove the excess sludge and allow for filtration.

The turbidimeter is installed in the filtration device of the present invention so as to automatically or manually control the management of the effluent and the timing of washing the filter.

The electric device and the electronic device applied in the present invention can be controlled based on a conventional control method.

Figure 3 is a cross-sectional view of the filtering device with the suction nozzle installed on the inner and outer surfaces of the cylindrical filter of the present invention, Figure 3 is another embodiment, after separating the suspended solids and foreign matters mixed in the supernatant with a cylindrical filter cylindrical floats and foreign matters It adheres to the inner wall of the filter (3) and decreases the filtration efficiency, so that it is shaken off. At this time, if the suction nozzle (7) installed near the inner wall of the cylindrical filter (3) is sucked by the suction pump (8), the cylindrical filter is rotated. Foreign matter and suspended matter are sucked by the suction force and transferred to the third processing system through the transfer pipe 9, so that the suspended matter and foreign matter can be separated from the cylindrical filter inner wall.

Accordingly, FIG. 3 can improve the efficiency of the filter by separating foreign matter and suspended matter attached to the outer wall of the cylindrical filter 3 by providing a suction nozzle 7 on the inner and outer walls of the cylindrical filter.

In addition, Figure 3 of the present invention, the inner nozzle to suck and remove foreign matter and suspended matter, the suction nozzle installed on the filter outer surface blows air or water so that the suction nozzle of the inner side from the inner wall of the filter when the suction nozzle is sucked Can be installed to facilitate separation. At this time, the suction nozzle installed inside the cylindrical filter is to be connected to the suction pump, when installed on the outer surface to blow air or spray the water is connected to the co-pressure or water supply pump.

4 is a block diagram of a dredging system in which the filtration apparatus of the present invention is installed, and FIG. 4 illustrates a schematic diagram of a dredging system that is commonly practiced, and the present invention is not necessarily connected to such a system. In any system, the supernatant precipitated in the sedimentation tank is used to filter suspended matter and foreign matter.

In addition, the connecting portion of the casing and the cylindrical filter, which are not described in the present invention, constitute a bearing, a watertight packing, and the like on the connecting rotation portion, and such a configuration will not be described separately as a coupling method commonly used.

Thus, the present invention is to build an environment-friendly dredging system by removing the aggregate from the dredged water and discharged the supernatant water precipitated in the sedimentation tank to the outside through the filtration device to prevent the surrounding water quality is contaminated by foreign matter and suspended matter. In addition, it is possible to easily remove the sludge and foreign matter stuck to the inside and outside of the filter has the advantage of increasing the efficiency of the filtration operation.

1: filtration device 2: casing
3: Cylindrical Filter 4: Drive Gear
5: hydraulic motor 6: motor shaft gear
7,7 ': Suction nozzle 8: Suction pump
9: Transport pipe 10: Inflow pipe
11: outlet tube 12: first filter fixing plate
13: second filter fixing plate 14: guide rail
15: roller 16: hollow support pipe
20: Turbidity meter

Claims (4)

A casing in the form of a chamber having a discharge port formed at one lower side thereof;
A cylindrical filter installed to be rotated on the inner central axis of the casing and fixed by a first filter fixing plate having a hollow support tube and a second filter fixing plate connected to an inlet;
A drive gear coupled to the hollow support tube of the first filter fixing plate to engage the shaft gear of the hydraulic motor to rotate the cylindrical filter;
The discharge water filtration device discharged during the dredging project characterized in that it comprises a suction nozzle for removing the foreign matter and suspended matter by the suction force of the suction pump installed on one side close to the cylindrical filter. The method of claim 1,
The suction nozzle is a discharge water filtering device discharged during the dredging business, characterized in that the suction nozzle is installed on each of the inner and outer surfaces of the cylindrical filter. The method of claim 1,
The cylindrical filter is discharge water filtering device discharged during the dredging business, characterized in that the suction nozzle is installed on the inner side and the injection nozzle is installed on the outside. The method of claim 1,
The casing is installed in the turbidimeter on one side so that the turbidity of the filtered water filtered from the filter to be discharged during the dredging business, characterized in that the discharge water filtering device.

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