KR101611712B1 - Water seperator discharging apparatus of loading material - Google Patents

Abstract

In order to achieve the above object, the present invention provides a water separating pipe provided at a lower portion of a hopper in which a stored water is stored, and which opens and closes a discharge path of the stored water; And a drain part provided in the water separation pipe for separating and discharging water contained in the stored water, wherein the water separation pipe is disposed at a lower part of the hopper in which the stored water is stored, A guide pipe disposed so as to be communicable with the discharge path; And a flow pipe provided in the guide pipe so as to be movable forward and backward and capable of opening and closing the discharge passage of the stored product and having a drain part for discharging water contained in the stored product, Lt; / RTI >
The present invention simultaneously performs both the opening and closing of the discharge path of the stored product and the rapid separation of the moisture contained in the stored product by opening and closing the discharge path of the stored product and constituting the water separating pipe for discharging the contained water of the stored product There is an effect that can be done.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water separator,

The present invention relates to a water separating and discharging device for storing water, and more particularly, to a water separating and discharging device for storing water having improved water removal efficiency contained in a stored water.

In the continuous casting process, a large amount of scale is generated due to the cooling water sprayed on the surface of the cast steel for cooling the drawing casting, and the generated scale is collected in a certain place by the flow of the cooling water and stored in the hopper using the equipment.

At this time, as shown in Fig. 1, a large amount of water used as cooling water is stored in the hopper together with the scale.

In addition, when the water contained in the scale stored in the hopper is excessive, water is leaked into the gap of the hopper, environmental pollution occurs due to the discharged cooling water, and worker needs to periodically remove the water There is a problem that the work environment becomes worse.

In addition, the stored scale is transferred to a recycling place using a vehicle. When the water content contained in the stored scale is large, it is difficult to transfer the storage scale, and there is a problem that the contained water may cause secondary contamination due to the outflow of cooling water .

In addition, when moisture removal in the hopper storage process can not be smoothly performed, the transferred scale may be dissolved to cause a quality problem of molten steel due to the moisture contained in the recycling process. In order to solve the problem of quality deterioration, There is a problem that it takes a lot of time and expense because it is required to go through the removal process.

Therefore, in order to effectively recycle the stored scale, it is necessary to sufficiently remove the moisture contained in the scale in the hopper during the storage step of the scale to discharge the scale.

The present invention is realized by recognizing at least any one of the requirements or problems generated in the discharge apparatus of the conventional storage as described above.

As one aspect, the present invention relates to a method of separating water from a stock stored in a hopper, which effectively removes moisture contained in a scale, thereby eliminating the quality problem of molten steel due to the water contained in the process of dissolving and recycling scales To provide a discharge device.

An aspect of the present invention is to provide a water separating and discharging device capable of maximizing the water removal efficiency of a scale discharged from a hopper by removing moisture contained in a region where the stored product is finally discharged from the hopper.

The present invention provides, as one aspect thereof, a water purifying apparatus for a water purifier, comprising: a filter provided inside a hopper for securing a discharge path for moisture to be able to remove moisture contained in the stored water; To provide a discharge device.

In one aspect, the present invention effectively removes the moisture contained in the scale stored in the hopper in the scale storage step, thereby preventing the environmental pollution caused by the cooling water that has leaked through the gap of the hopper, And to provide a water separating and discharging device for the stored water which can be improved.

In order to achieve the above object, the present invention provides a water separating pipe provided at a lower portion of a hopper in which a stored water is stored, and which opens and closes a discharge path of the stored water; And a drain part provided in the water separation pipe for separating and discharging water contained in the stored water, wherein the water separation pipe is disposed at a lower part of the hopper in which the stored water is stored, A guide pipe disposed so as to be communicable with the discharge path; And a flow pipe provided in the guide pipe so as to be movable forward and backward and capable of opening and closing the discharge passage of the stored product and having a drain part for discharging water contained in the stored product, Lt; / RTI >

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Preferably, the drainage section may include at least one of a plurality of drainage holes or screen-shaped screen members formed at one side of the outer circumferential surface of the flow pipe and formed through an outer circumferential surface of the flow pipe.

Preferably, the water separation pipe is installed in connection with the discharge path of the stored product, and may be arranged to be inclined downwardly away from the discharge path.

The apparatus may further include a first filter installed to be connected to the discharge path of the stored product at the lower portion of the hopper and to guide the water in the lower portion of the hopper to the water separation pipe.

Preferably, the first filter is a tapered member whose sectional area decreases from the upper portion to the lower portion.

The hopper may further include a second filter installed inside the hopper in a height direction to induce a moisture flow in the height direction inside the hopper.

Preferably, the second filter includes: a plurality of vertical filters formed in the height direction inside the hopper; a ring-shaped horizontal filter connected to a lower side of the vertical filter and communicable with the plurality of vertical filters; And an inclined strainer connected to a lower side of the horizontal strainer and communicable with the horizontal strainer to guide moisture flow to the first strainer.

Preferably, the first filter is supported by a support plate provided at a lower portion of the hopper, and the support plate includes a mounting portion to which the first filter is inserted and to be mounted, and an inner wall of the hopper and the mounting portion A support portion for supporting the stationary portion, and a penetrating portion provided between the adjacent support portions and capable of moving the stored product.

Preferably, the apparatus further includes driving means for slidably moving the flow pipe to the inside of the guide pipe, wherein the driving means includes a rack gear provided at one side of the flow pipe, And a pinion gear meshing with the rack gear and driven by a motor, wherein the rack gear is formed on the upper side of the flow pipe and is provided at a position corresponding to a flow groove provided on the upper side of the guide pipe And may be provided at a position corresponding to the flow groove.

Preferably, a moisture sensor provided inside the hopper for measuring a water content of the stored matter in the hopper, a water content sensor for measuring a water content measured by the moisture sensor, And a control unit for controlling the flow rate of the stored water so as to close the discharge path of the stored product when the measured moisture content exceeds the preset moisture content.

Preferably, the guide pipe is provided with an open door at a corresponding portion where the drainage portion of the flow pipe is located when the flow pipe is retracted by the driving means to open the discharge path of the hopper, And cleaning means for cleaning the drainage portion through the open door to remove the deposit deposited on the drainage portion.

Preferably, the stock may be a scale recovered in a continuous casting process.

According to an embodiment of the present invention as described above, the opening and closing of the discharge path of the stored product, and the constitution of the water separation pipe for discharging the contained water of the stored product, It is possible to simultaneously perform the two roles of rapid separation.

According to an embodiment of the present invention, there is an effect that the quality problem of molten steel due to the moisture contained in the process of effectively removing the moisture contained in the scale storage step and dissolving the stored scale and recycling it can be solved.

According to an embodiment of the present invention, the flow pipe is disposed in the final discharge path of the stored product to remove moisture contained in a region where the stored product is finally discharged from the hopper, thereby maximizing the water removal efficiency of the scale discharged from the hopper There is an effect.

According to an embodiment of the present invention, moisture contained in the stored water is introduced into the filter provided inside the hopper, and moisture transferred through the inner space of the filter is shortened, There is an effect that water can be quickly drained.

According to the embodiment of the present invention, the moisture contained in the scale stored in the hopper is effectively removed in the stage of storing the scale, thereby preventing the problem of environmental pollution caused by the cooling water that has leaked through the gap of the hopper, The working environment can be improved.

1 is a view showing a state in which a large amount of contained moisture is contained in a conventional hopper.
FIG. 2 is a perspective view illustrating a water separation and discharge apparatus for a storage according to an embodiment of the present invention. FIG.
3 and 4 are views showing the open / close state of the lower portion of the hopper and the water discharge according to the movement of the flow pipe of the water separating and discharging device according to the embodiment of the present invention.
FIG. 5 and FIG. 6 are views showing the opening and closing state of the lower portion of the hopper and the water discharge according to the movement of the flow pipe of the water separating and discharging device according to another embodiment of the present invention.
FIGS. 7 and 8 are views showing a state where the first filter and the second filter are installed, and a water separating and discharging device of the stored water.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a water separating and discharging apparatus for a stored water according to an embodiment of the present invention will be described in detail with reference to the drawings.

Referring to FIGS. 2 to 8, a water separation and discharge apparatus for storing water according to an embodiment of the present invention includes a water separation pipe 100, and further includes a first filter 200, a second filter 300, A driving means 400, and a cleaning means 500.

The water separating and discharging apparatus includes a water separating pipe (100) provided at a lower portion of the hopper (1) in which the stored water is stored and opening and closing a discharge path of the stored water, And a drainage unit 121 for separating and discharging water contained in the water.

That is, the water separating / discharging device for the stored water is provided at a lower portion of the hopper 1 where the stored product is installed, and includes a drainage unit 121 provided to be capable of opening and closing the discharge path of the stored product, And a water separating pipe (100) including the water separating pipe (100).

At this time, the stock stored in the hopper 1 may be a scale recovered in the continuous casting process. In the continuous casting process, a large amount of scale is generated from the cooling water sprayed on the surface of the cast steel for cooling the drawn cast steel, and the generated scale can be collected in a certain place by the flow of the cooling water and stored in the hopper 1

The water separating pipe 100 of the water separating and discharging device of the stored product may include a guide pipe 110 and a floating pipe 120.

The water separation pipe 100 includes a guide pipe 110 disposed at a lower portion of the hopper 1 in which the stored product is stored and communicably installed in a discharge path of the stored product, And a flow pipe 120 provided to be capable of moving back and forth in the discharge path of the stored product and having a drain part 121 through which moisture contained in the stored product is discharged.

The drainage section 121 of the flow pipe 120 is disposed in the discharge path of the storage while the discharge path of the lower part of the hopper 1 is closed by the flow pipe 120 as shown in FIGS. 3 and 5 So that the moisture contained in the stored water can be drained.

As shown in FIG. 4 and FIG. 6, when the stored water is sufficiently drained to discharge the stored product, the flow pipe 120 is retracted by the driving means 400 to open the discharge path of the stored product It is possible to discharge the stored contents in the hopper 1.

The guide pipe 110 may be installed in the discharge path of the stored product so that the stored product stored in the hopper 1 is connected to the guide pipe 110 through the connection pipe 2 formed in the lower portion of the hopper 1, The storage material can be discharged through the discharge port 3 formed on the lower side of the storage tank 110.

The stored product can be discharged through the discharge port 3 of the stored product through the connecting pipe 2 formed at the lower part of the hopper 1. [

At this time, a water separation pipe 100 having a guide pipe 110 and a flow pipe 120 may be installed between the connection pipe 2 and the discharge port 3, and a drainage part 121 of the flow pipe 120 Lt; / RTI >

A bearing or a conveying roller for movably supporting the flow pipe 120 may be provided on a joint surface between the guide pipe 110 and the flow pipe 120.

2 to 6, the drain portion 121 may be formed on the upper side along the longitudinal direction of the flow pipe 120, and on the upper side of the drain portion 121, the first filter 200 may be adjacent . The moisture contained in the stored water led through the first filter 200 may be discharged along the drainage portion 121 of the flow pipe 120 through the lower portion of the first filter 200.

5, in order to discharge the moisture inside the hopper 1, the discharge path of the lower part of the hopper 1 is closed by the flow pipe 120, and the discharge pipe of the connection pipe The drain portion 121 is disposed at a position corresponding to the outlet 2 so that moisture contained in the stored water can be drained.

As shown in FIG. 4 and FIG. 6, when the stored water is sufficiently drained to discharge the stored product, the flow pipe 120 is retracted by the driving means 400 to open the discharge path of the stored product It is possible to discharge the stored contents in the hopper 1.

2, the drainage unit 121 may be formed on the upper side of the flow pipe 120, and the lower portion of the drainage unit 121 may be formed so that the moisture discharged through the drainage unit 121 may be introduced and discharged. May be provided as a tubular body capable of blocking the flow of water.

As shown in FIGS. 3 to 6, the water separating pipe 100 is installed in association with the discharge path of the stored product, and may be arranged to be inclined downwardly away from the discharge path.

This is to allow the water discharged into the flow pipe 120 by the drain portion 121 to be easily discharged through the drain pipe formed on the back surface of the flow pipe 120 along the downward inclination.

The drain portion 121 may include at least one of a plurality of drain holes or a screen screen member formed at one side of the outer circumferential surface of the flow pipe 120 and formed through the outer circumferential surface of the flow pipe 120 have.

The drainage section 121 is a structure for passing the moisture contained in the stored product without passing through the stored product to remove moisture contained in the stored product.

The drain portion 121 may be formed of a plurality of drain holes formed through the outer circumferential surface of the flow pipe 120 and may be a screen member formed on one side of the outer circumferential surface of the flow pipe 120.

In addition, a plurality of drain holes formed through the outer circumferential surface of the flow pipe 120 are formed in the drain portion 121, and a network screen member is formed on the inner circumferential surface of the flow pipe 120 in which the drain hole is formed As shown in FIG.

When the drainage portion 121 of the flow pipe 120 is provided as a screen screen member, a grid-like support frame provided below the screen member and supporting the screen member may be provided.

Needless to say, the support frame is not necessarily provided in the form of a lattice, and various types of support frames may be provided that do not prevent moisture from being discharged through the screen member while supporting the screen member.

However, the structure and shape of the drainage section 121 are not limited to this, and various forms of the drainage section 121 may be applied as long as the moisture contained in the stored product is passed through without passing through the stored product. Of course.

As shown in FIGS. 2 to 6, the apparatus may further include driving means 400 for slidably moving the flow pipe 120 into the guide pipe 110.

4, the driving means 400 includes an operating rod 440 connected to one side of the flow pipe 120, a driving cylinder 450 for moving the operating rod 440, ).

6, the driving means includes a rack gear 410 provided on one side of the flow pipe 120, a driving gear 400 connected to the rack gear 410, And a pinion gear 420 coupled to the rack gear 410 and driven by a motor. The rack gear 410 is formed on the upper side of the flow pipe 120, The flow grooves 113 may be formed at positions corresponding to the flow grooves 113 that are open in the openings.

More specifically, the motor driving of the pinion gear 420 engaged with the rack gear 410 is controlled by a driving motor 430 (not shown) coupled to the pinion gear 420 and the motor shaft, ). ≪ / RTI >

The rack gear 410 may be formed on the upper side of the flow pipe 120 and may be disposed at a position corresponding to the flow groove 113 opened upward in the guide pipe 110, The flow pipe 120 can be advanced or retracted inside the guide pipe 110 by the rotation of the pinion gear 420 disposed in the guide pipe 113. [

A water separating and discharging device for storing water is provided in the lower part of the hopper (1) so as to be connected to the discharge path of the stored water, and is provided with a first filter (200).

The first filter 200 may be installed in the hopper 1 so as to be connected to the discharge path of the stored product, and may include at least one of a plurality of drainage holes or a screen member.

The first filter 200 may be provided in a hollow form and the hollow portion may shorten the discharge path of water, thereby facilitating the discharge of water.

When the moisture contained in the stored water in the hopper 1 is lowered by the gravity and is guided to the lower portion thereof, The time required to move to the lower portion through the hollow portion of the hollow portion is shortened.

The moisture contained in the stored water flows into the first filter 200 through the drainage hole and the screen member and the moisture traveled through the inner space of the filter moves to shorten the moisture transfer time, There is an effect that can be drained.

By including the configuration of the first filter 200, the flow of the water around the filter is concentrated inside the filter, and the moisture introduced into the filter flows through the lower portion of the filter into the discharge path of the hopper 1 And may be led to the pipe 120 and discharged.

As shown in FIG. 2, the first filter 200 may be a tapered member whose sectional area decreases from the upper portion to the lower portion. When the first filter 200 is formed of a tapered member, the upper cross-sectional area may be greater than or equal to the lower cross-sectional area.

That is, the filter may be provided such that the cross-sectional area of the upper portion decreases as it goes down. However, the filter is not always required to have a continuously decreasing section, but may have a section maintaining the same sectional area from the upper portion to the lower portion.

The first filter 200 may be formed as a tapered member. The first filter 200 may include a moisture inducing portion for inducing water contained in the stored matter inside the hopper 1 to flow into the filter through the upper surface and the side surface of the first filter 200, And a water discharge portion disposed adjacent to the flow pipe 120 and discharging moisture introduced into the flow pipe 120 through the lower surface of the first filter 200 have.

Although not shown, the upper surface of the first strainer 200 is formed in a conical shape with a slope to disperse the upper portion of the first strainer 200 to the periphery of the first strainer 200 to prevent deposition of the stored product. .

As shown in FIGS. 7 and 8, the water separating and discharging device for the stored water is provided in a height direction inside the hopper 1, and a second filter (for example, 300).

As shown in FIG. 7, the second filter 300 may be installed in connection with the first filter 200 to induce a flow of moisture in the height direction inside the hopper 1, The moisture introduced to the lower portion of the hopper 1 through the lower portion of the second filter 300 may be guided to the first filter 200 through the lower portion of the second filter 300, And can be led and discharged to the flow pipe 120 located on the path.

The moisture contained in the stored water flows into the second filter 300 and the moisture transferred through the inner space of the filter moves, thereby shortening the moving time of the water and allowing the water contained in the stored water to be quickly drained have.

As shown in FIG. 7, the second filter 300 may include a vertical filter 310, a horizontal filter 320, and an oblique filter 330.

The second filter 300 includes a plurality of vertical filters 310 formed in the height direction of the hopper 1 and a plurality of vertical filters 310 connected to the lower portions of the vertical filters 310, And a horizontal filter 320 connected to the lower portion of the horizontal filter 320 so as to be able to communicate with the vertical filter 310 and the horizontal filter 320, 200 to induce water flow.

The filter may include at least one of a plurality of drainage holes or screen-shaped screen members formed on the outer circumferential surface of the filter.

Various structures such as a drainage hole and a screen screen member for draining the drainage section 121 of the flow pipe 120 described above can be directly applied to the first filter 200 and the second filter 300 Of course.

As shown in FIG. 2, the first filter 200 may be supported by a support plate 4 provided below the hopper 1. At this time, the support plate 4 may be installed on the inner circumferential surface of the connection pipe 2 formed at the lower part of the hopper 1. [

The support plate 4 includes a mounting part 5 in which the first strainer 200 is inserted and to be mounted and a fixing part 5 which is connected to the inner wall of the hopper 1 and the mounting part 5, And a penetrating portion 7 provided between the adjacent supporting portions 6 and capable of moving the stored product.

At this time, the supporting part 6 may be provided as a radial member arranged around the mounting part 5 to which the filter is inserted and fixed.

FIG. 2 shows a configuration in which the four supports 6 support the first filter 200. The mounting portion 5 is a portion for fixing the first filter 200 and the mounting portion 5 may be formed of a ring-shaped member on which the first filter 200 is mounted.

The supporting portion 6 is a portion which is provided to connect the inner wall of the hopper 1 to the mounting portion 5 and supports the load of the first filter 200.

The penetrating portion 7 is an empty space formed between the supporting portions 6. When the flow pipe 120 is retracted and the discharge path of the hopper 1 is opened, the penetrating portion 7 passes through the penetrating portion 7, Can be discharged to the discharge port (3) under the hopper (1).

The water separating and discharging device may include a control unit (not shown) for controlling the flow path of the stored water to be closed by advancing the flow pipe 120 when the measured water content exceeds the preset water content.

A control unit (not shown) is provided inside the hopper 1 and includes a moisture measurement sensor (not shown) for measuring a water content of the stored matter in the hopper 1, (Not shown) that compares a measured moisture content of the stored water with a set water content of the stored water set for removing moisture contained in the hopper 1.

At this time, the control unit (not shown) may control the flow pipe 120 to advance to close the discharge path of the stored product when the measured moisture content measured by the moisture measurement sensor (not shown) exceeds the set water content.

Here, the set water content rate is determined by setting the moisture content of the stored product to limit the discharge of the product from the hopper 1 when the moisture content of the product stored in the hopper 1 is excessive, If the set water content is exceeded, it is necessary to remove the moisture contained in the stored water in consideration of the quality of the stored water and the environmental pollution due to drowning.

Accordingly, the driving means 400 is activated by the signal of the control unit (not shown) to advance the flow pipe 120 of the water separation pipe 100 to close the discharge path of the hopper 1, The moisture contained in the storage can be additionally removed.

Of course, even if the measured moisture content of the stored product exceeds the preset moisture content, if forced discharge of the stored product in the hopper 1 is required, the water separating pipe 100 is retracted to open the discharge path of the hopper 1 An open switch (not shown) may be additionally provided.

The water separating and discharging device of the storage may include a washing means 500 for removing deposits and the like of the drainage portion 121 of the flow pipe 120.

The guide pipe 110 is provided with a drain portion 121 of the flow pipe 120 when the flow pipe 120 is retracted by the driving means 400 to open the discharge path of the hopper 1 And an open door 111 may be provided at a corresponding portion.

When the drainage section 121 of the flow pipe 120 is disposed at a position corresponding to the open door 111, the opening of the opening door 111 opens the cleaning means 500 so that high pressure water or high pressure air is sprayed And may be provided to clean the drainage section 121.

In this way, when the deposit of the drainage section 121 is removed by the cleaning means 500, the drainage of the drainage section 121 or the deposit deposited on the screen member is removed, The drainage performance can be restored.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

1: Hopper 2: Connection piping
3: Outlet 4: Support plate
5: mounting part 6: supporting part
7: penetration part 100: water separation piping
110: guide pipe 111: open door
113: flow groove 120: flow pipe
121: Drain part 200: First filter
300: second filter 310: vertical filter
320: horizontal filter 330: gradient filter
400: driving means 410: rack gear
420: pinion gear 430: drive motor
440: Operation rod 450: Drive cylinder
500: Cleaning means

Claims (13)

delete A water separating pipe provided at a lower portion of the hopper in which the stored water is received and opening / closing the discharge path of the stored water; And
And a drain portion provided in the water separation pipe for separating and discharging water contained in the stored water,
Wherein the water separating pipe comprises:
A guide pipe disposed at a lower portion of the hopper in which the stored product is stored, the guide pipe being communicably installed in a discharge path of the stored product; And
And a flow pipe provided in the guide pipe so as to be movable forward and backward and capable of opening and closing the discharge passage of the stored product and having a drain part for discharging water contained in the stored product.
The apparatus according to claim 2,
Wherein at least one of a plurality of drain holes or a screen screen member formed at one side of the outer circumferential surface of the flow pipe and formed through an outer circumferential surface of the flow pipe is provided.
3. The method of claim 2,
Wherein the water separation pipe is installed in association with the discharge path of the stored product and is disposed so as to be inclined downward as the product is further away from the discharge path.
3. The method of claim 2,
And a first strainer installed to be connected to a discharge path of the stored product at a lower portion of the hopper and to guide the water in the lower portion of the hopper to the water separation pipe.
6. The apparatus of claim 5, wherein the first filter comprises:
And a tapered member whose sectional area decreases from the upper part to the lower part.
6. The method of claim 5,
And a second filter installed inside the hopper in a height direction to induce water flow in the height direction inside the hopper.
8. The filter according to claim 7,
A plurality of vertical filters formed in a height direction inside the hopper,
A ring-shaped horizontal filter connected to a lower side of the vertical filter and communicable with the plurality of vertical filters,
And an inclined strainer connected to a lower side of the horizontal strainer and communicable with the horizontal strainer to guide moisture flow to the first strainer.
6. The method of claim 5,
Wherein the first filter is supported by a support plate provided below the hopper,
The support plate
A support portion for supporting the mounting portion in association with the inner wall of the hopper and the mounting portion; and a penetrating portion provided between the adjacent supporting portions and capable of moving the stored product And discharging the stored water.
3. The method of claim 2,
And driving means for slidably moving the flow pipe into the guide pipe,
The driving means includes:
A rack gear provided on one side of the flow pipe,
And a pinion gear provided in association with the rack gear and engaging with the rack gear and driven by a motor,
Wherein the rack gear is provided on the upper side of the flow pipe and is provided at a position corresponding to a flow groove provided on the upper side of the guide pipe.
3. The method of claim 2,
A moisture measuring sensor provided inside the hopper for measuring a water content of the stored matter in the hopper,
And a comparison operation unit for comparing a measured moisture content measured by the moisture content sensor with a set moisture content of the stored product set for removing moisture contained in the hopper,
And a controller for controlling the flow pipe to advance the discharge path of the stored product when the measured moisture content exceeds the set water content.
3. The method of claim 2,
Wherein the guide pipe is provided with an open door at a corresponding portion where the drainage portion of the flow pipe is located when the flow pipe is retracted by the driving means to open the discharge path of the hopper,
And cleaning means for cleaning the drainage portion through the open door when the open door is opened to remove the deposit deposited on the drainage portion.
3. The method of claim 2,
Characterized in that the stock is a scale recovered in a continuous casting process.

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