KR20140109733A - Apparatus for removing foreign material - Google Patents

Abstract

The present invention relates to an apparatus for processing foreign materials comprising: an apparatus frame; a first means of processing foreign materials arranged on the upper part of the apparatus frame and separating foreign material concentrate in mixing water; and a second means of processing foreign materials arranged on the lower part of the apparatus frame and separating foreign materials from foreign material concentrate emitted from the first means of processing foreign materials. According to the present invention, foreign materials such as sludge and the like in a structure of a water tank can be separated effectively from water through parallel separation processes of hydro cyclone and precipitation.

Description

[0001] Apparatus for removing foreign material [

The present invention relates to a foreign matter treatment apparatus, and more particularly, to a foreign matter treatment apparatus for separating and removing foreign matter such as sludge existing in a structure of a water tank or the like through two-step separation operation of the principle of hydrocyclone and sedimentation action will be.

Steel mills with many heating facilities use large amounts of cooling water for cooling steelmaking equipment and steel products. In order to process the cooling water, a water tank must be present, and physical and chemical impurities are introduced into the cooling water depending on the application.

As a result, when the time for which the foreign matter-containing water stays in the tank becomes longer, the foreign matter precipitates and forms sludge. If you continue to use it without removing it, not only the water tank equipment itself will be damaged, but also steel making equipment and equipment using cooling water will increase the probability of failure. In conclusion, sludge settling in the tank should be removed.

In order to remove such sludge, conventionally, all the water in the water tank is discharged, and the operator directly goes into the water tank to remove the sludge. In this case, the process using the water tank is temporarily stopped, which causes the productivity of the steel making process to be lowered.

Or sludge settled in the lower part of the water tank by using equipment such as a crane equipped in the water tank facility, and then discharged to the outside of the water tank to be removed. However, in this case, the water and the sludge are not separated well, and a large amount of water is discarded as it is, resulting in a problem that the water recovery rate is remarkably deteriorated.

The present invention has been proposed in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a device capable of separating foreign matter such as sludge existing in a structure of a water tank or the like more effectively from water through a two- .

In order to achieve the above object, an embodiment of the present invention provides the following foreign matter processing apparatus.

According to an embodiment of the present invention, there is provided an apparatus comprising a device frame and a first foreign object processing means disposed on the apparatus frame, for separating a foreign substance concentrate from mixed water, and a second foreign object processing means disposed below the apparatus frame, And a second foreign substance processing means for separating foreign matters from the foreign substance concentrate.

In one embodiment, the first foreign matter disposal means is connected to the mixed water inflow portion, and includes a hydrocyclone portion for separating the mixed water into a foreign matter concentrate and treated water, and an upper end of the hydrocyclone portion, An overflow portion, and a foreign matter discharge portion connected to a lower end of the hydrocyclone portion and discharging the descending foreign matter condensate.

In one embodiment, the second foreign material processing means may include a settling tank disposed at a lower portion of the first foreign material processing means so as to accumulate the foreign matter concentrated liquid discharged from the foreign object discharging portion, and a second foreign material processing means for extracting foreign substances from the foreign matter concentrated liquid stored in the settling tank, An extraction screw disposed at an inner lower surface of the sedimentation tank, and a foreign matter collecting tank disposed at one side of the sedimentation tank and collecting foreign matter extracted by the extraction screw.

In one embodiment, the settling tank has an inclined surface, and the extracting screw is installed on the inclined surface so as to extract foreign substances precipitated in the lower portion of the settling tank.

In one embodiment, the second foreign matter processing unit may further include a moving frame for supporting the settling tank, and an angle adjusting unit installed between the moving frame and the apparatus frame, for adjusting the angle of the settling tank.

In one embodiment, the angle adjusting unit includes a hinge member connecting the moving frame and the apparatus frame, and a plurality of fixing holes arranged at a predetermined distance in a vertical direction on the apparatus frame, the predetermined distance being apart from the hinge member. And a fixing bar mounted on the moving frame and inserted into the fixing hole.

In one embodiment, the angle adjusting unit may include a hinge member connecting the moving frame and the apparatus frame, and a hydraulic cylinder spaced a predetermined distance from the hinge member and installed between the moving frame and the apparatus frame.

In one embodiment, the second foreign material processing means includes a drain valve mounted at a predetermined height apart from the lower end surface of the settling tank so as to discharge water separated from the concentrated liquid of the foreign matter accumulated in the settling tank, and a second valve disposed at a lower portion of the settling tank And a drain water tank provided to collect the water discharged from the drain valve.

In one embodiment, the apparatus may further include a discharge stabilizing unit disposed between the foreign matter discharging unit and the settling tank so that the foreign matter concentrate discharged from the foreign matter discharging unit is uniformly discharged in the width direction to the settling tank, A fixed panel disposed at the lower end of the foreign object discharge unit in the apparatus frame, a floating panel rotatably connected to the fixed panel and the shaft, and a shaft connected to the shaft, wherein the shaft rotates to adjust the angle between the fixed panel and the floating panel And may include a driving motor that adjusts the driving force.

In an embodiment of the present invention, the separation device separates foreign matter such as sludge from water primarily through a hydrocyclone, and separates water from the water through a sedimentation operation, thereby performing a more effective separation operation.

The angle of the settling tank can be adjusted so that the foreign matter can be easily removed through the extraction screw at an appropriate position depending on the kind or viscosity of the foreign object.

In addition, not only the hydrocyclone process but also the precipitation process can separate and recover the water to improve the water reuse rate, thereby ultimately increasing the productivity in the steel making process and the like.

1 is a perspective view of an embodiment of a foreign matter treatment apparatus according to the present invention.
2 is a side view of the invention shown in Fig.
3 is a plan view of the invention shown in Fig.
4 is a front view of the invention shown in Fig.
Fig. 5 is a partially enlarged view of the hydrocyclone portion in the invention shown in Fig. 1. Fig.
6 is a partial enlarged view of the emission stabilizing means in the invention shown in Fig.
7 is a partially enlarged view of the angle adjusting portion in the invention shown in Fig.
Fig. 8 is a partially enlarged view of the driving unit in the invention shown in Fig. 1;
Fig. 9 is a state diagram when the first foreign material processing means is folded in a moving form in the invention shown in Fig. 1. Fig.

In order to facilitate understanding of the features of the present invention as described above, a foreign matter processing apparatus according to an embodiment of the present invention will be described in detail.

In order to facilitate understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, the related components among the components that perform the same function in the respective embodiments are denoted by the same or an extension line number.

The embodiments related to the present invention are basically based on the fact that a foreign matter such as sludge existing in a structure such as a water tank can be more effectively separated from water through a two-stage separation operation of a hydrocyclone and a sedimentation operation.

Hereinafter, a specific embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a perspective view of an embodiment of a foreign body treatment apparatus according to the present invention, FIG. 2 is a side view of the invention shown in FIG. 1, FIG. 3 is a plan view of the invention shown in FIG. 1, Fig. 5 is a partially enlarged view of the hydrocyclone portion in the invention shown in Fig. 1, Fig. 6 is a partially enlarged view of the discharge stabilizing means in the invention shown in Fig. 1, and Fig. 7 is a cross- FIG. 8 is a partially enlarged view of a driving part in the invention shown in FIG. 1; FIG.

1 to 8, an embodiment of the foreign object treatment apparatus of the present invention includes an apparatus frame 200 and a first foreign object processing means (not shown) disposed on the apparatus frame 200 for separating a foreign substance concentrate from mixed water, And a second foreign object processing unit 400 disposed at a lower portion of the apparatus frame 200 and separating foreign matters from the foreign substance concentrate discharged from the first foreign object processing means 300 .

The apparatus frame 200 may be provided with a plurality of beams welded or bolted to each other and may be made of steel material having a strength enough to support the first and second foreign matter disposal means 300 and 400 have.

Here, the mixed water may mean water containing foreign matter such as sludge, and the foreign substance concentrate may mean water in which some water is removed from the mixed water.

The first foreign material processing means 300 recovers a part of the water through centrifugal separation into a foreign substance concentrate. The first foreign material processing means 300 includes a hydrocyclone unit 310, A flow unit 320, and a foreign matter discharging unit 330.

Specifically, the hydrocyclone part 310 is connected to a mixed water inlet part 340 connected to the water tank, and the mixed water supplied from the mixed water inlet part 340 is separated into a substance concentrate and treated water .

At this time, the overflow unit 320 is connected to the upper end of the hydrocyclone unit 310, and the treated water centrifugally separated at the hydrocyclone unit 310 rises and is discharged to the outside through the overflow unit 320 The treated water, that is, the water, is primarily recovered. The recovered water is reused for cooling equipment and products in the steel making process.

The foreign matter discharging unit 330 is connected to the lower end of the hydrocyclone unit 310 and the centrifugal foreign matter concentrated in the hydrocyclone unit 310 descends and flows through the foreign matter discharging unit 330 to the second And moves to the foreign object processing means 400.

The foreign matter concentrating liquid introduced from the foreign matter discharging unit 330 is extracted once again by the second foreign material processing unit 400 and is secondarily recovered. (410), an extraction screw (420), and a foreign matter collecting tank (430).

Specifically, the sedimentation tank 410 is disposed below the first foreign material processing means 300. Accordingly, the foreign substance concentrate discharged from the foreign matter discharging unit 330 is accumulated in the settling tank 410.

The extraction screw 420 is disposed at the lower end of the inner surface of the settling tank 410 and the foreign substance precipitated at the lower end of the settling tank 410 is extracted from the concentrated liquid stored in the settling tank 410 do. The precipitated foreign matter moves along the extraction screw 420 and moves to the foreign matter collecting tank 430.

At this time, the foreign matter collecting tank 430 can be disposed at one side of the sedimentation tank 410, more specifically, in a direction in which foreign matter moves by rotation of the extraction screw 420, The collected foreign matter is collected.

Here, the extraction screws 420 may be provided on the entire bottom surface of the settling tank 410, and foreign substances may be prevented from being discharged to a part of the settling tank 410 at this time.

One side of the extraction screw 420 may be connected to a driving unit 470, which may be implemented as a stepping motor, an inverter motor, a servo motor, etc. In particular, when a plurality of the extraction screws 420 are provided, A drive unit 470 and a gear box 471 connected to the timing belt 472 and the pulley 473 may be provided. When the driving unit 470 is operated by the gear box 471, the plurality of extraction screws 420 can be simultaneously rotated in one direction.

Meanwhile, the sedimentation tank 410 has an inclined surface, and the extraction screw 420 may be provided on the inclined surface to extract and extract foreign substances precipitated in the lower part of the sedimentation tank 410.

In this case, the settling tank 410 receives the water separated from the foreign material in the space formed by the inclined surface, and the foreign material is discharged to the foreign material collecting tank 430 when it is lifted along the inclined surface.

The second foreign material processing unit 400 may further include a moving frame 440 and an angle adjusting unit 450 to adjust the angle of the settling tank 410. So that the extraction screw 420 can more easily remove foreign matter by adjusting the angle of the sedimentation tank 410 according to the type and viscosity of the foreign matter. For example, when the size of the foreign substance is large or the viscosity is low, the angle of the sedimentation tank 410 is lowered so that the extraction screw 420 can easily extract the foreign substance. If the viscosity of the foreign matter is low, the extraction screw 420 may not be properly extracted when the angle of the inclined surface is high.

First, the moving frame 440 may be provided to support the lower end of the sedimentation tank 410, as shown in FIG. The angle adjusting unit 450 is installed between the moving frame 440 and the apparatus frame 200 to adjust the angle of the settling tank 410.

One embodiment of the angle adjuster 450 may include a hinge member 451, a fixing bracket 453, and a fixing bar as shown in FIG.

The moving frame 440 is connected to the apparatus frame 200 by the hinge member 451 so as to be rotatable. The fixing bracket 453 having a plurality of fixing holes spaced apart from the hinge member 451 by a predetermined distance and arranged at a predetermined distance in a vertical direction on the apparatus frame 200 is mounted .

At this time, the movable bar 440 is installed in the fixing bar, and inserted into the fixing hole to support the rotation angle of the movable frame 440. Accordingly, the angle of the sedimentation tank 410 supported by the moving frame 440 is adjusted and maintained.

Further, another embodiment of the angle adjuster 450 may include a hinge member and a hydraulic cylinder, although not shown in the drawings.

 The moving frame 440 is rotatably mounted on the apparatus frame 200 by the hinge member. The hydraulic cylinder is connected to the apparatus frame 200 and the movable frame 440 by a predetermined distance from a point where the hinge member is installed.

At this time, when the operator operates the hydraulic cylinder, the rod of the hydraulic cylinder is expanded and contracted, and the moving frame 440 is rotated with the hinge member as a rotation axis. Accordingly, the inclination angle of the sedimentation tank 410 supported by the moving frame 440 is adjusted and maintained.

 The second foreign material processing unit 400 may further include a drain valve 461 and a drain water tank 463 to recover water separated from foreign substances in the settling tank 410.

The drain valve 461 may be installed at a predetermined height apart from the lower end surface of the settling tank 410 and may be provided to discharge the separated water over time in the foreign substance concentrate accumulated in the settling tank 410 .

The drain water tank 463 may be disposed below the settling tank 410 and may be provided to collect the water discharged through the drain valve 461.

In one embodiment of the present invention, the foreign matter concentrate discharged from the foreign matter discharging unit 330 is uniformly discharged in the width direction to the sedimentation tank 410, And an exhaust stabilization means (500) disposed therein. The discharge stabilization means 500 may be composed of a fixed panel 510 and a floating panel 520.

The fixing panel 510 may be welded or bolted to the lower end of the apparatus frame 200 supporting the first foreign material processing means 300. The moving panel 520 may be fixed to the fixing panel 510, And can be connected by a hinge. Accordingly, the foreign substance concentrate discharged through the foreign matter discharging unit 330 flows uniformly on the flow panel 520 and flows into the settling tank 410.

When the foreign substance concentrate is uniformly introduced into the settling tank 410, the foreign matter is precipitated relatively uniformly at the lower end of the settling tank 410, so that the extraction by the extraction screw 420 is more effectively performed.

The fixed panel 510 and the floating panel 520 may be interconnected by a shaft 530. At this time, the shaft 530 is connected to the speed reducer 540 and the driving motor 550 and may be provided to adjust the angle between the fixed panel 510 and the moving panel 520 as the rotating shaft 530 rotates.

In this case, by adjusting the angle formed by the flow panel 520 in accordance with the type and viscosity of the foreign matter, it is possible to control the concentration of the foreign matter concentrate in the sedimentation tank 410 to be evenly distributed. For example, when the viscosity of the foreign substance is low, the time for flowing through the flow panel 520 is short, so that the angle formed by the flow panel 520 with respect to the fixed panel 510 is reduced to increase the residence time, 520). ≪ / RTI >

According to an embodiment of the present invention, the moving unit 600 may further include a moving unit 600 to move a foreign object to a water tank. The moving member 600 may include a wheel member 610 and a rotating member 620. The wheel member 610 may be disposed at a lower end of the drain water tank 463 and the foreign- The apparatus frame 200 including the first and second foreign object processing means 300 and 400 is provided so as to be moved in the water tank direction and the rotating member 620 is moved in the moving direction between the first foreign object processing means 300, The support block 210 supporting the first foreign material processing means 300 is laid down as shown in FIG. 9 so as not to interfere with the other steelmaking facilities.

The configuration of an embodiment of the present invention is the same as described above, and an operation state will be described below.

Referring again to FIG. 1, mixed water flows into the hydrocyclone unit 310 through the mixed water inlet connected to the water tank. In the hydrocyclone unit 310, the mixed water is treated with a foreign substance concentrate through centrifugal separation Water, that is, water.

The treated water is discharged to the overflow unit 320 through the synergistic action and is reused in the steelmaking process, and the foreign substance concentrate is discharged to the foreign matter discharge unit 330 through the downward action.

The foreign matter concentrate discharged to the foreign matter discharging unit 330 flows to the discharge stabilizing unit 500 arranged between the first foreign matter treating unit 300 and the second foreign matter treating unit 400. [

At this time, the operator adjusts the angle between the fixing panel 510 and the flow panel 520 according to the type and viscosity of the foreign substance, and the foreign substance concentration liquid is uniformly dispersed and discharged to the settling tank 410.

In the foreign matter concentrate discharged uniformly to the settling tank 410, foreign matter is deposited on the lower part of the settling tank 410 and water is separated therefrom.

The operator drives the driving unit 470 to rotate the extraction screw 420 so that the foreign substances precipitated in the lower part of the sedimentation tank 410 are drawn up and discharged to the foreign material collecting tank 430. Thereafter, the drain valve 461 is opened to discharge the separated water to the drain water tank 463 at the upper part of the settling tank 410. The secondarily recovered water is again reused in the steelmaking process.

Here, the operator can more easily perform the foreign matter extraction by the extraction screw 420 by adjusting the angle of the slope of the sedimentation tank 410 using the angle adjusting unit 450 according to the type and viscosity of the foreign matter.

An embodiment of the present invention has the above-described structure and operation principle, and is capable of separating foreign matter such as sludge existing in a structure of a water tank or the like more effectively from water through a two-step separation operation of a hydrocyclone and a sedimentation action Effect can be expected.

The above items are only specific examples of the foreign material processing apparatus.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

200 ... apparatus frame 300 ... first foreign material processing means
310 ... hydrocyclone unit 320 ... overflow unit
330 ... Foreign matter discharge unit 400 ... Second foreign matter treatment means
410 ... sedimentation tank 420 ... extraction screw
430 ... foreign collecting tank 440 ... moving frame
450 ... angle adjusting portion 451 ... hinge member
453 ... fixed bracket 454 ... fixed bar
460 ... drain portion 461 ... drain valve
463 ... drain water tank 500 ... exhaust stabilization means
510 ... fixed panel 520 ... floating panel
530 ... shaft 540 ... reducer
550 ... driving motor 600 ... moving part

Claims (9)

Device frame;
First foreign matter disposal means disposed above the apparatus frame for separating the foreign matter concentrate from the mixed water; And
A second foreign object processing unit disposed at a lower portion of the apparatus frame for separating foreign matters from the foreign substance concentrate discharged from the first foreign object processing unit;
And a control unit.
The method according to claim 1,
Wherein the first foreign substance processing means comprises:
A hydrocyclone unit connected to the mixed water inlet and separating the mixed water into a foreign substance concentrate and treated water;
An overflow unit connected to an upper end of the hydrocyclone unit and discharging rising process water; And
A foreign matter discharging portion connected to a lower end of the hydrocyclone portion and discharging a descending foreign substance concentrate;
Wherein the foreign substance processing apparatus further comprises:
3. The method of claim 2,
Wherein the second foreign substance processing means comprises:
A sedimentation tank disposed at a lower portion of the first foreign material processing means so as to accumulate the foreign matter concentrated liquid discharged from the foreign matter discharge unit;
An extracting screw disposed at a lower end of the inner surface of the settling tank so as to extract foreign matter from the concentrated liquid of foreign matter accumulated in the settling tank; And
A foreign matter collecting tank disposed at one side of the settling tank for collecting foreign matter extracted by the extracting screw;
Further comprising: a control unit for controlling the flushing unit.
The method of claim 3,
Wherein the sedimentation tank has an inclined surface, and the extraction screw is mounted on the inclined surface to extract foreign matter precipitated in the lower part of the sedimentation tank.
5. The method of claim 4,
Wherein the second foreign substance processing means comprises:
A moving frame for supporting the settling tank; And
An angle adjusting unit installed between the moving frame and the apparatus frame and adjusting an angle of the settling tank;
Further comprising: a control unit for controlling the flushing unit.
6. The method of claim 5,
Wherein the angle-
A hinge member connecting the moving frame and the apparatus frame;
A streamlined fixing bracket having a plurality of fixing holes spaced apart from the hinge member by a predetermined distance, the fixing bracket being vertically disposed on the apparatus frame; And
A fixing bar mounted on the moving frame and inserted into the fixing hole;
Wherein the foreign substance processing apparatus further comprises:
6. The method of claim 5,
Wherein the angle-
A hinge member connecting the moving frame and the apparatus frame;
A hydraulic cylinder spaced a predetermined distance from the hinge member and installed between the moving frame and the apparatus frame;
Wherein the foreign substance processing apparatus further comprises:
The method of claim 3,
Wherein the second foreign substance processing means comprises:
A drain valve disposed at a predetermined height from the bottom surface of the settling tank so as to discharge the separated water from the concentrated liquid of the foreign matter accumulated in the settling tank; And
A drain tank disposed below the settling tank and provided to collect water discharged from the drain valve;
Further comprising: a control unit for controlling the flushing unit.
The method of claim 3,
And a discharge stabilizing unit disposed between the foreign matter discharging unit and the settling tank so that the foreign matter concentrated liquid discharged from the foreign matter discharging unit is uniformly discharged in the width direction to the settling tank,
The exhaust stabilization means includes:
A stationary panel disposed at a lower end of the foreign object discharge portion in the apparatus frame;
A flow panel rotatably connected to the stationary panel and the shaft; And
A driving motor connected to the shaft and rotating the shaft to adjust an angle between the fixed panel and the floating panel;
Wherein the foreign substance processing apparatus further comprises:

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