KR101266355B1 - Apparatus for disposing sediment in waterway for power generation - Google Patents

Abstract

PURPOSE: A deposits disposal device of a waterway for electricity generation is provided to reduce the damages or the load of a device due to the deposits and to maintain normal operation of a power plant without an additional excavation cost. CONSTITUTION: A deposits disposal device of a waterway(10) for electricity generation comprises a pair of rails as a support frame, a transfer unit, an elevation or descent device(300), a pump(500), a discharge device, and a monitor device(700). The rails as the support frame are installed on both sides of an upper surface of the waterway, and the transfer unit is installed between the rails as the support frame. The elevation or descent device is installed in the transfer unit. The discharge device is vertically moved by the elevation or decent device and discharges the deposits precipitated on a bottom surface of the waterway through a transfer pipe(400). The monitor unit is installed between the pump and the transfer unit and confirms a state of the bottom surface in the waterway. [Reference numerals] (AA) Column "1"

Description

Apparatus for disposing sediment in waterway for power generation}

The present invention provides a sediment treatment system for smoothly removing sludge and jellyfish (hereinafter referred to as 'sediments'), such as sand and sand, deposited in waterways used for cooling water and other services in power plants by introducing seawater and fresh water. It is about. More specifically, the present invention relates to a power generation sediment treatment apparatus that allows the sediment, which is settled on the bottom of the channel in the state where the water is filled, to always be automatically and automatically treated without a separate vessel and a diver.

In general, thermal or nuclear power plants are equipped with large steam turbine recuperators and various heat exchangers for cooling major equipment.

The steam turbine recuperator and various heat exchangers require an essential cooling process in order to maintain a temperature below an appropriate standard. Such a cooling system uses seawater having a large cooling effect. The same sludge (hereinafter referred to as 'sediment') is withdrawn and settled. These sediments are suspended in the cooling seawater taken from the power plant on the west coast and flow into the intake. There is a problem that becomes very high, and also causes damage and failure of the equipment by the salt damage to the normal operation of the power plant.

In order to solve this problem, conventionally dredged sedimentary soil by dredging the bottom of the water intake channel periodically once every two to three years, and then carrying it to the landfill site on the seashore, and the bottom of the seawater pumping station building In order to remove the sedimentary soils of the plant, mobilize divers during the planned preventive maintenance period of each power plant, excavate the ground with tools such as hoe, and lift the sand and sand to ground storage tank around the building by using pneumatic pump. After the work is carried out to remove the sand or sand by manpower, such as landfills, which are transported to the landfill site on the beach, but this is not only an economic loss but also a safety accident due to the expenditure of construction work by a separate excavation work. There is a problem.

The present invention reduces the damage or load of equipment such as screens, filters and strainers by sediment such as sand, sand, etc., which is introduced with seawater and freshwater during the inflow of seawater or freshwater used for power plant cooling, and also separate excavation. The present invention aims to provide a sediment treatment apparatus for a power plant that maintains normal operation of a power plant without incurring costs to achieve economic and reliable power plant operation.

Another object of the present invention is installed on the waterway and to transport the sediment sinking on the bottom surface, the transfer means moved back and forth, left and right, and the pump is suspended attached to the transfer means, and the suction sucked from the pump By installing a transport pipe and a discharge device for receiving the sediment from the transport pipe for sending to the outside, there is to be able to process the sediment automatically and cleanly without a separate vessel and divers.

The present invention is installed on a water inlet for the introduction of sea water or fresh water used for cooling the power plant in the treatment apparatus for treating the sediment when the sea water and fresh water inflow,

The sediment treatment device (1) is a pair of support frame for both rails installed on both sides of the waterway and the conveying means 200 is installed between the support frame for both rails (100) and the left and right, and the transport Lifting and lowering device 300 is installed in the means 200, and the lifting and lowering operation by the lifting and lowering device 300, the transfer pipe 400 for transporting the sediment that is settled on the bottom of the water channel to the outside Pump 500 for sending to the outside through the discharge, the discharge device 600 for transporting and discharging the sediment raised by the pump to the outside, the monitoring device 700 for checking the water channel bottom state, Characterized in that it consists of a control unit and a power supply for controlling the devices.

In addition, one end of the conveying pipe 400, the pump 500 is installed, the other side is characterized in that the auxiliary pipe 410, which is adjustable in height by its own weight is installed to prevent the precipitate from scattering.

In addition, the auxiliary pipe 410 is inserted into the U-shaped tube 411, and the U-shaped tube 411 is installed so as to fall by its own weight, a plurality of pipes having a narrow upper and wider shape toward the bottom ( 412 is installed, the transfer means 200 is a horizontal carriage (210) installed between the pair of support frame and the rail 100, the saddle 220 for reciprocating between the horizontal carriage and the, Hoist 310 including a driving means 230 for reciprocating the saddle 220 in the horizontal carriage 210, the lifting and lowering device 300 is installed in the lower portion of the saddle 220, the trolley 311 is installed It is characterized by the).

By providing the sediment treatment apparatus with the power generation water of the present invention, the following effects can be obtained.

First, by preventing the sediment, sand and jellyfish, which are included in the seawater and freshwater used for cooling in the power plant waterway, from being settled, it can be economically used by reducing dredging equipment and labor costs by intake by dredgers. have.

Second, it is possible to mobilize several divers to prevent safety accidents that may occur when sediment is removed and to prevent industrial accidents caused by collisions between structures and waterways during dredger work.

1 is a view showing the side of the power generation channel sediment treatment apparatus according to the present invention.
FIG. 2 is an enlarged cross-sectional view illustrating main parts of part A of FIG. 1.
3 is a view showing a part of the cut plane of the sewage treatment apparatus for power generation according to the present invention.
4 is an enlarged cross-sectional view of a main portion of part B of FIG. 3.
5 is a view schematically showing the relationship between the lifting device, the lowering device installed in the saddle according to the present invention, the pump and the transfer pipe.
6 is a view showing an operating state of the auxiliary pipe according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation according to the present invention. In the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and duplicate description thereof will be omitted. The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

In addition, in the description of the present invention, some components are installed symmetrically with each other, and description thereof will be omitted.

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

1 is a view showing the side of the power generation channel sediment treatment apparatus according to the present invention, Figure 2 is an enlarged cross-sectional view of the main portion of part A of Figure 1, Figure 3 is a partial cut in the plane of the power generation channel sediment treatment apparatus according to the present invention 4 is an enlarged cross-sectional view of the main portion of part A of FIG. 3.

The power generation channel sediment treatment apparatus 1 according to the present invention will be described with reference to FIGS. 1 to 4.

As shown in FIG. 2 or FIG. 3, a pair of supporting frame rails 100 are installed on both sides of the upper surface of the channel 10.

The conveying means 200 is installed between the support frame and the rail 100.

The conveying means 200 is a horizontal carriage (210) installed between the pair of support frame and the rail (100), saddle 220 for reciprocating between the horizontal carriage and the saddle 220 It consists of a drive means 230 for reciprocating in the horizontal transfer table (210).

The saddle 220 operates along the support frame rail 100 by a motor and a wheel.

At this time, the conveying means 200 is a lifting pipe 300 for moving up and down by the lifting and lowering device 300 and the lifting and lowering device 300 and settled on the bottom surface of the water channel to the outside ( A pump 500 for sending to the outside through 400 is installed.

The pump 500 transfers water, including sediment such as sand or mud, and jellyfish, which are settled on the bottom surface of the waterway 10 using a sand pump, through the transfer pipe 400.

As shown in FIG. 5, the lifting and lowering device 300 includes a hoist 310 installed at a lower portion of the saddle 220 and installed with a trolley 311. 500) are suspended.

The hoist 310 is operated by a general electric motor, a reducer, a brake combined device (not shown).

At this time, one end of the conveying pipe 400, the pump 500 is installed, the other side is installed to prevent the sediment is scattered by the auxiliary pipe 410 which is adjustable in height by its own weight.

As shown in FIG. 4 or FIG. 6, the auxiliary pipe 410 is fitted to the U-shaped pipe 411 installed at one end of the transfer pipe 400 and the U-shaped pipe 411 by its own weight. It consists of a plurality of pipes 412 are installed to fall.

The plurality of pipes 412 is narrower in the upper and form a wider toward the lower side.
At this time, a ring-shaped stopper 413 serving as a stopper is integrally installed by welding at the lower outer side of the plurality of tubes 412 and the upper inner side of the other tube 412.
Therefore, at first, as shown in FIG. 6A, as the feed pipe 400 is raised, the last and middle auxiliary pipes 412 are lowered by their own weight, as shown in FIG. 6B, and the stopper 413 and the stopper ( As the 413 meets, the movement of the auxiliary pipe 412 is stopped, and when the transfer pipe 400 descends again, the last auxiliary pipe 412 is inserted into the previous auxiliary pipe 412 as shown in FIG. 6A. In addition, the auxiliary pipe is inserted into the intermediate auxiliary pipe to adjust the length.
On the other hand, the sediment pumped up by the pump 500 is transferred to the outside by the discharge device 600 installed in the auxiliary pipe 410 lower.

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The discharge device 600 transfers the precipitate and water discharged through the auxiliary pipe 410 to a chute having a U-shape at its side to an external storage device (not shown).

In addition, a monitoring device 700 for checking the bottom state of the waterway 10 is installed between the pump 500 and the transfer pipe 400.

The surveillance apparatus 700 is a surveillance camera, and the image transmitted from the surveillance camera is directly checked by the naked eye through a monitor (not shown) to determine whether or not to treat the sediment.

In addition, all the above devices are operated by a control unit and a power supply unit (not shown).

Therefore, the power generation channel sediment treatment apparatus 1 is configured as described above when the user checks the bottom state of the water channel 1 through the monitor to confirm that a lot of sediment is accumulated "control" when turned on the switch (not shown) Will be powered on.

Then, the control unit transfers the conveying means 200 installed between the support frame dual rail 100 to a desired position, and then operates the pump 500.

Next, the pump 500 sucks the sediment and water that is settled on the bottom surface of the water channel 10 and discharges it to the discharge device 600 through the transfer pipe 400.

At this time, the plurality of pipes 412 of the auxiliary pipe 410 installed on the transfer pipe 400 is dropped by its own weight according to the accumulation degree of sediment to always maintain a constant height on the discharge device (800).

The reason for maintaining a constant height as described above is to prevent the sewage falling with the precipitate splashes out.

Next, when the sediment which has been settled on the bottom surface of the water channel by the operation of the pump 500 is exhausted, the user operates the saddle 220 and places it in a desired position.

Then, the pump 500 is raised as the trolley 311 suspended from the hoist 310 is lifted.

After the pump is placed in the desired location, the previous step can be repeated to clean up the bottom of the channel.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Anyone with ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1: sediment treatment device 10: water channel
100: support frame rail 200: transfer means
210: horizontal transport stand 220: saddle
230: driving means 300: lifting device
310: hoist 311: trolly
400: transfer pipe 410: auxiliary pipe
411: U-shaped tube 412: Multiple tube
500: pump 600: discharge device
700: monitoring device

Claims (5)

In the sediment treatment apparatus for treating the sediment when the sea water and fresh water inflow is installed on the water inflowing water or fresh water used for power plant cooling,
The sediment treatment device (1) is a pair of support frame for both rails installed on both sides of the waterway and the conveying means 200 is installed between the support frame for both rails (100) and the left and right, and the transport Lifting and lowering device 300 is installed in the means 200, and the lifting and lowering operation by the lifting and lowering device 300, the transfer pipe 400 for transporting the sediment that is settled on the bottom of the water channel to the outside Pump 500 for sending to the outside through the discharge, the discharge device 600 for transporting and discharging the sediment raised by the pump to the outside, the monitoring device 700 for checking the water channel bottom state, A controller and a power supply for controlling the devices;
Power generation sediment treatment device, characterized in that consisting of. The method of claim 1,
The pump 500 is installed at one end of the transfer pipe 400, and the other side is provided with an auxiliary pipe 410 that is capable of adjusting the height by its own weight to prevent sediment from scattering. Device. The method of claim 2,
The auxiliary pipe 410 is inserted into the U-shaped tube 411, and the U-shaped tube 411 is installed so as to fall by its own weight, a plurality of pipes 412 of the upper and narrower form a wider downward Power generation sediment treatment device characterized in that the installation. The method of claim 1,
The conveying means 200 is a horizontal carriage (210) installed between the pair of support frame and the rail 100, the saddle 220 for reciprocating between the horizontal carriage and the saddle 220 horizontally Power generation sediment treatment device comprising a drive means 230 for reciprocating in the carriage 210. The method according to claim 1 or 4,
The lifting and lowering device 300 is installed in the lower portion of the saddle 220, the trolley 311 is a power generation sediment treatment device, characterized in that the hoist 310 is installed.

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