KR20000009757U - Sediment Discharge Device - Google Patents

Abstract

The present invention is to provide a sediment discharge device that can easily discharge the sediment in the intake and the sea water into the sediment storage tank by causing the upward flow of sea water in the flotation room using an indirect injection method of compressed air supplied from the outside. .

The sediment discharge device of the present invention includes a hollow flotation chamber 10 including a suction port 20 for sucking the precipitate and an outlet 12 for discharging to the outside in order to remove the deposit accumulated in the water. In addition, the deposit discharge device includes a nozzle 32 disposed inside the flotation chamber 10 to blow out air. In addition, in the deposit discharge device, the suction port 20 is disposed near the deposit and the air is injected through the nozzle 32 while maintaining the support chamber 10 in an almost upright state. In the flotation chamber 10 of the sediment discharge device, an upward flow of water is formed with the rise of bubbles, and a precipitate is floated along the upward flow of water and discharged through the discharge port 12. In addition, the nozzle 32 of the deposit discharge device is configured to spray airflow toward the discharge port 12. In addition, the sediment discharge device further includes a high pressure air supply source 33 for supplying high pressure air to the nozzle 32, and a control valve 31 for adjusting the amount of pneumatic air supplied.

Description

Sediment Discharge Device

The present invention relates to a sediment discharge device, in particular, is installed in the intake of the sea water for use as a coolant in the nuclear power plant, the sediment, such as sand, shells, shells, suspended matter, etc. introduced with the sea water A sediment discharge device for use in discharging a sediment reservoir.

In general, nuclear power plants use seawater to cool nuclear reactors that generate hot heat. Such nuclear power plants have a water intake facility designed to use seawater as a coolant for the reactor.

A typical water intake facility is located in the vicinity of the beach, as shown in FIG. This water intake facility has a water intake so that the sea water (5) is introduced. The intake channel is formed so that the seawater 5 can be induced by the breakwater 1 having a depth of about 20 meters because of the large difference between tides on the coast. In this intake furnace, the above-described precipitate 2 mixed in the sea water 5 is accumulated about 2 to 3 meters every year. In addition, the seawater 5 of the intake furnace is pumped up from the submersible pump 3 and the pump house and used as a coolant of the nuclear power plant. At this time, the precipitate 2 mixed in the sea water 5 deteriorates the coolant supply line and all the facilities of the nuclear power plant. Therefore, in the nuclear power plant, the sediment 2 is frequently removed from the seawater 5 of the intake.

In the method of removing sediment in the water intake according to the prior art, the stop gate 4 is installed in the intake passage, and the sea water 5 inside the stop gate 4 is completely removed. Then, the scaffold used in the general building structure is used. In the water inlet, a number of workers descend to the underground workshop where 20 meters of sediment (2) is accumulated, and the sediment (2) is scooped up using a common basket and shovel, and then pulled up to remove it.

However, since the conventional method of removing sediment by intake is performed by a large number of manpower in the underground workshop, it is possible to inhale harmful gas generated from fish and shellfish in the underground workshop, and there is a risk of safety accidents such as falling of the worker during the work. have.

In addition, the conventional water intake sediment removal method has a disadvantage in that the work efficiency is lowered because it depends on the difficulty of installing the stop gate and scaffolding, and the labor and labor of the operator to pour the sediment.

In addition, the conventional method of removing sediment with water intake has a disadvantage of causing a lot of manpower waste because it manually removes a large amount of sediment every year.

The present invention has been made to solve the problems of the prior art as described above, by using the indirect injection method of the compressed air supplied from the outside by causing the upward flow of seawater in the flotation room, sediment and seawater in the intake furnace To provide a sediment discharge device that can be easily discharged into the sediment reservoir.

1 is a plan view showing a water intake facility of a typical nuclear power plant.

Figure 2 is a perspective view for explaining the configuration of the sediment discharge device according to an embodiment of the present invention.

3 is a cross-sectional view for explaining a method of operating the deposit discharge device shown in FIG.

4 is a cross-sectional view for explaining the installation method and the use method of the deposit discharge device shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

10: flotation room 12: outlet

20: inlet port 30: air pipe

31: control valve 32: nozzle

33: high pressure air source 40: discharge hose

According to the present invention for achieving the object as described above, there is provided a sediment discharge device for removing the sediment accumulated in the water. Such a sediment discharge device of the present invention includes a hollow buoyancy chamber including a suction inlet for sucking the precipitate and an outlet for discharging to the outside, and a nozzle disposed in the buoyancy chamber to blow out air. Further, in the sediment discharge device, the suction port is disposed near the sediment and the air is injected through the nozzle while maintaining the buoyancy chamber in an almost upright state. In the flotation chamber of the sediment discharge device, an upward flow of water is formed with the rise of bubbles, and a precipitate is floated along the upward flow of this water and discharged through the discharge port.

In addition, the nozzle of the sediment discharge device of the present invention is preferably formed to spray the air flow toward the discharge port.

In addition, the precipitate discharge device of the present invention preferably further comprises a high-pressure air source for supplying high-pressure air to the nozzle, and a control valve for adjusting the amount of pneumatic air supplied.

In addition, the sediment discharge device of the present invention preferably further comprises a plurality of legs supporting the suction port spaced slightly from the sediment.

In addition, it is preferable that the handle is attached to the outside of the flotation chamber of the sediment discharge device of the present invention to facilitate movement.

In addition, the sediment discharge device of the present invention is preferably a material containing a large specific gravity to reduce the buoyancy of the buoyancy chamber additionally includes a buoyancy suppression portion formed around the buoyancy chamber.

In the following, with reference to the accompanying drawings a preferred embodiment of the sediment discharge device according to the present invention will be described in detail.

In the drawings, Figure 2 is a perspective view for explaining the configuration of the sediment discharge device according to an embodiment of the present invention, Figure 3 is a cross-sectional view for explaining the operation method of the deposit discharge device shown in Figure 2, Figure 4 is 2 is a cross-sectional view for explaining a method of installing and using the sediment discharge device shown in FIG.

As shown in Figure 2, the sediment discharge device of the present invention has a buoyancy chamber (10) formed with a movable handle (11). A hollow suction port 20 is formed below the support chamber 10. Outside the hollow suction port 20, the flotation chamber 10 is almost erect on the upper part of the sediment, and the suction port 20 and the sediment can be spaced apart from each other, so that it is easy to manage when not in use, a plurality of The leg 21 is attached. In addition, an air pipe 30 for supplying compressed air of high pressure is fixed to the outside of the flotation chamber 10 by the fixing unit 14. In addition, the outlet 12 is formed in the upper portion of the flotation chamber 10 so that the discharge hose 40 can be inserted.

As shown in Figure 3, the buoyancy chamber 10 of the sediment discharge device of the present invention is wrapped with a float suppression portion 13 of a predetermined weight so as not to rise by buoyancy in sea water. The flotation chamber 10 is formed in a cylindrical shape in communication with the inlet 20 and the outlet 12. The discharge port 12 of the flotation chamber 10 is inserted through the discharge hose 40. In addition, the suction port 20 of the flotation chamber 10 is formed in a nozzle shape in which the diameter is gradually reduced in the open lower direction. The end of the air pipe 30 is inserted into the suction port 20 in the radial direction to penetrate in the radial direction. In addition, the nozzle 32 mounted at the end of the air pipe 30 is disposed in the buoyancy chamber 10 so as to face upward (a). The air pipe 30 is provided with a control valve 31 so that the diver can easily remove the compressed air supply.

As shown in Figure 4, the sediment discharge device of the present invention is settled in the sea water (5) of the water intake channel of about 20 meters underground, and is built on top of the sediment (2) accumulated on the bottom of the water intake. The discharge hose 40 coupled to the sediment discharge device of the present invention is extended to deliver the sediment (2) to the sediment reservoir. In addition, the air pipe 30 is extended to receive 7kg / ㎠ compressed air from the high-pressure air source 33 near the deposit reservoir.

Divers put in the work of removing the sediment grasping the handle 11 of the sediment discharge device of the present invention installed as described above and arranges the flotation chamber 10 in an almost upright position on top of the sediment. Then, the diver opens the control valve 31 of the air pipe 30. At this time, the compressed air supplied from the high pressure air supply source 33 is delivered to the nozzle through the air pipe (30). The nozzle sprays the compressed air upward in the flotation chamber 10. Airflow injected through the nozzle 32 generates bubbles in the flotation chamber 10. Therefore, in the flotation chamber 10, upward flow of the seawater 5 with the rise of the bubbles is formed. Then, the precipitate 2 is buoyed along the upward flow of the seawater 5 and discharged through the outlet 12. The sediment (2) and the sea water (5) is discharged to the sediment reservoir through the discharge hose (40). Such sediments 2 and seawater 5 are dried in a sediment reservoir. And, the sediment discharge device of the present invention, while moving the intake channel by the diver, while supporting the discharge of the sediment (2) accumulated in the bottom of the intake channel in the same manner.

As described in detail above, the sediment discharge device of the present invention discharges bubbles upward in the flotation chamber according to the indirect injection method of the high pressure air, and supports the sediment with the upward flow of sea water according to these bubbles, so that the seawater with the outside There is an advantage that can be easily discharged to remove the precipitate.

In addition, the sediment discharge device of the present invention is attached to the handle so that the diver can easily work, there is an advantage that can be removed by lifting the sediment in the intake channel while moving across the intake.

In addition, the sediment discharge device of the present invention, because the leg is attached to the bottom, can be almost standing upright from the top of the sediment, there is an advantage that it is easy to manage when not in use.

In addition, since the sediment discharge device of the present invention is manufactured in a small size, there is an advantage that can be widely used to remove the sediment accumulated in the water, such as a small area, the sea, rivers, etc. that can not use a general dredger.

In addition, the sediment discharge device of the present invention is a small number of divers are administered to the sediment removal operation to perform an effective sediment removal operation, there is an advantage that can prevent a lot of waste of manpower.

In addition, since the sediment discharge device of the present invention removes the sediment in the state in which the sea water is filled in the inlet, there is an advantage in preventing safety accidents caused by manual work using a general shovel and basket in advance, and has an advantage in the safety management of the supervisor. .

The technical idea of the sediment discharge device of the present invention has been described above with the accompanying drawings, but this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (6)

In the sediment discharge device to remove the sediment accumulated in the water, A hollow flotation chamber 10 including a suction port 20 for sucking sediment and a discharge port 12 for discharging to the outside, and a nozzle 32 disposed inside the flotation chamber 10 for blowing air; And injecting air through the nozzle 32 while arranging the suction port 20 near the sediment and maintaining the buoyancy chamber 10 in an almost upright state, and the bubble rises in the buoyancy chamber 10. An upward flow of water is formed in the sediment discharge device, characterized in that the sediment is floated along the upward flow of the water is configured to be discharged through the outlet (12). The apparatus of claim 1, wherein the nozzle (32) is configured to spray airflow toward the outlet (12). According to claim 1, characterized in that it further comprises a high-pressure air supply source 33 for supplying high pressure air to the nozzle 32, and a control valve 31 for adjusting the amount of pneumatic air is supplied. Sediment discharge device. 3. The sediment discharge device according to claim 1 or 2, further comprising a plurality of legs (21) for supporting the suction port (20) slightly apart from the sediment. The sediment discharge device according to claim 1 or 2, wherein a handle (11) is attached to the outside of the flotation chamber (10) for easy movement. According to claim 1 or 2, characterized in that it further comprises a levitation suppression portion 13 formed around the levitation chamber 10 of a material having a high specific gravity in order to reduce the buoyancy of the levitation chamber (10). Sediment discharge device.