KR100868502B1 - Apparatus for pressing scale - Google Patents

Abstract

The scale compression dehydration apparatus of the present invention is a device for separating the scale collected in the scale feet from the separator to pull some scale through the scale trough, and discharge processing through the discharge pipe, on the left side of the discharge pipe while communicating with the discharge pipe A filter bag case having a drain pipe formed therein; A filter cloth fixed between the filter bag case and the discharge pipe; A push cylinder installed in the filter bag case and having a push plate fixed to a rod end thereof located inside the filter bag case; A compression cylinder installed at a right side of the discharge pipe and having a compression plate fixed to a rod end thereof located inside the discharge pipe; And a moving cylinder installed at the front side of the discharge pipe between the filter case and the compression cylinder, and having a support plate fixed to the rod end thereof.

Water treatment plant, wastewater, scale, compression, dewatering

Description

Scale compression dehydrator {Apparatus for pressing scale}

1 is a perspective view showing the overall structure of a scale processing apparatus equipped with a scale compression dewatering apparatus according to the present invention.

Figure 2 is a perspective view of the scale compression dehydration apparatus according to the present invention.

3 is a perspective view showing a conventional scale processing apparatus.

Explanation of symbols on the main parts of the drawings

27: compression cylinder 31: filter case

33: push cylinder 37: filter cloth

45: guide rail 47: support plate

49: moving cylinder 57, 59, 61: solenoid valve

63: rotating level sensor 75: control panel

75a: Control program 81: Scale

The present invention relates to a water treatment facility for each field of an ironworks, and more particularly, to a scale compression dehydration apparatus for separating water and scale in separating scales contained in wastewater.

In general, a large amount of cooling water is used in each process of manufacturing steel, especially in the manufacture of strips.

When the strip is cooled, the coolant injected to the surface of the strip is recyclable. Looking at the process, the coolant injected to the surface of the strip peels off the scale generated on the surface after the strip is exposed to air after rolling the strip. The scale is included in the cooling water, is precipitated and filtered in the water treatment process, the scale is removed and recycled to the supernatant.

In the scale treatment method, the scale is settled at the scale feet and pumped out by a crane, or the settled scale is pumped up to the scale conveyor system using a pump and pulled up along the slope using a conveyor to remove moisture.

The scale from which the water is removed is collected in a box, the residual moisture is discharged through the hole in the bottom of the box, and then reused as a raw material in the steelmaking process.

3 is a perspective view of a conventional scale processing apparatus.

Cooling water, which cools the strip, collects on the scale feet 1 including the scales, and the scales are settled by their own weight and are collected in the center of the lower part of the scale feet 1. The scale thus collected is lifted up by the scale pump 3 and separated into a thick scale and a fine scale by the separator 5 using the specific gravity difference.

The coarse scale is sent to the scale trough 7 with water through the bottom of the separator 5 and the fine scale is sent to the scale pit 1 via the return pipe 9 through the top of the separator 5. Lose.

At this time, the coarse scale sent to the scale gutter 7 is driven by the power of the drive motor 11 is pulled by the rubber blade (13) attached to the chain driven along the scale gutter (7) inclined scale gutter (7) Water is removed from the surface while being pulled up by the upper portion of the flow down by the self-weight is removed, the scale flows along the discharge pipe 15 is collected in the scale box 17 below.

When one scale box 17 is filled with the scale 19, the discharge pipe front end portion is pulled by the string 21 to move the discharge pipe front end toward the preliminary box 23.

However, as the scale continues to accumulate in the scale box while the scale box is full, water flows out through the holes drilled in the bottom of the scale box over time, contaminating the scale and polluting the surroundings. There is a problem that the scale flows down during transportation.

In addition, if the box hole is blocked and water is not drained, there is a risk of explosion if a scale containing a large amount of water is charged into the electric furnace.

Accordingly, the present invention has been proposed to solve the above problems, and to provide a scale compression dehydration apparatus that can remove the water contained in the scale of the device for separating the scale of the water treatment wastewater.

In order to achieve the above technical problem, the scale compression dewatering device of the present invention, in the apparatus for separating the scale collected in the scale feet from the separator to pull some scale through the scale gutter, and discharge treatment through the discharge pipe, the discharge pipe It is formed on the left side of the discharge pipe in communication with the filter case is formed with a drain pipe in the lower portion; A filter cloth fixed between the filter bag case and the discharge pipe; A push cylinder installed in the filter bag case and having a push plate fixed to a rod end thereof located inside the filter bag case; A compression cylinder installed at a right side of the discharge pipe and having a compression plate fixed to a rod end thereof located inside the discharge pipe; And a moving cylinder installed at the front side of the discharge pipe between the filter case and the compression cylinder, and having a support plate fixed to the rod end thereof.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For reference, a part of the reference numerals used in the description of the prior art will be used for the sake of a smooth description of the present invention.

1 is a perspective view showing the overall structure of the scale processing apparatus is installed scale compression dehydration apparatus according to the present invention, Figure 2 is a perspective view showing a scale compression dehydration apparatus according to the present invention.

As shown in Figure 1, the scale compression dehydration apparatus of the present invention is installed in a conventional discharge pipe, prior to explaining the present invention, the schematic structure and operation will be described as follows.

Cooling water that cools the strip is collected in the scale feet (1) with the scale, the scale is settled by its own weight and collected in the lower portion of the scale feet (1).

The scale pump 3 transfers the scale collected in the scale pit 1 to the separator 5.

The scale transferred to the separator (5) is separated into coarse and fine scale by the separator (5) using specific gravity difference, and the coarse scale is sent to the scale gutter (7) together with water through the lower part of the separator (5). The fine scale is sent to the scale pit 1 via the return pipe 9 through the upper portion of the separator 5.

At this time, the thick scale sent to the scale trough 7 is inclined by the rubber blade (13) attached to the chain driven along the scale trough 7 by the power of the drive motor 11, the inclined scale trough 7 While the water is buried in the upper portion along the water flows down by its own weight is removed, the scale is flowed along the discharge pipe 15, the compression dewatering by the scale compression dehydration apparatus according to the present invention.

Here, the compression dehydration apparatus according to the present invention is installed in the discharge pipe (15).

Compression dewatering device is formed on the left side of the discharge pipe 15, the filter bag case 25 is in communication with the discharge pipe 15, the compression cylinder 27 is installed to the right of the discharge pipe 15, the discharge pipe The front side of the (15) is formed with a plate case 29 in communication with the discharge pipe (15).

Here, the push cylinder 33 is installed at the left side of the filter case 31, and the push plate 35 is installed at the rod end of the push cylinder 33 extending into the filter case 31.                     

In addition, a filter cloth 37 is installed inside the filter bag case 31, and the filter cloth 37 is fixed with a bolt between the filter bag case 31 and the discharge pipe 15.

A drain pipe 39 for discharging the filtered filtrate is installed at a lower portion of the filter bag case 31, and the drain pipe 39 is connected to the scale pit 1.

The above-described compression cylinder 27 is installed at an opposite position of the filter bag case 31, and the rod tip of the compression cylinder 27 is located inside the discharge pipe 15, and at the end thereof, the scale is filtered. Compression plate 41 for pushing the inside of the) is installed, the home position sensor 43 is installed on the body of the compression cylinder 27 to detect the number of operation when the cylinder shrinks.

The plate case 29 positioned in the direction perpendicular to the push cylinder 33 and the compression cylinder 27 is installed with a guide rail 45 extending therein to the inside of the discharge pipe 15 in parallel with the plate case 29. .

The support plate 47 is mounted on the upper portion of the guide rail 45, and the support plate 47 is connected to the rod end of the movable cylinder 49 installed outside the plate case 29.

Each cylinder 27, 33, 49 as described above is connected to the cylinder operating air line (51, 53, 55), the air line (51, 53, 55) is a solenoid valve (57, 59, 61) Connected with

On the other hand, the upper side of the discharge pipe 15 is provided with a rotary level sensor 63 is rotated by a motor, the lower side of the discharge pipe 15 is provided with a drive motor 67 for rotating the discharge port (65).

The drive motor 67 is connected to the gear box 69, the speed can be adjusted, the rotational force of the drive motor 67 is transmitted to the drive gear 71 installed on the rotating shaft.

The drive gear 71 is engaged with the driven gear 73 formed along the upper outer circumference of the discharge port 65.

A control program 75a is connected to the control panel 75 to transmit a signal generated from the level sensor 63 to the control panel 75. In response to the transmitted signal, the control panel 75 controls the solenoid valves 57, 59, and 61 to control the operation of the cylinders 27, 33, and 49.

Scale compression dehydration apparatus according to the present invention configured as described above has the following actions.

When the autorun switch is operated in the control panel 75, the thick scale is moved by the rubber blade 13 and dropped to the discharge pipe 15 as described above.

The scale dropped to the discharge pipe 15 is accumulated above the support plate 47 which blocks the discharge pipe 15 by the expansion of the moving cylinder 49, and when the scale is accumulated up to the rotary level sensor 63 The rotating level sensor 63 stops rotating.

When the rotation stops, the operation of the scale pump and the motor is stopped by the control program, and the compression cylinder 27 repeatedly moves forward and backward as many times as set in the control program 75a to filter the scale accumulated on the support plate 47. Compressed into (37) is compressed, and the dewatered filtrate is sent to the scale pit (1) through the drain pipe (39).

When the compression is completed by the set number of times, the compression cylinder 27 waits in the reduced state, and when the moving cylinder 49 is reduced by the command of the control program, the support plate 47 retreats on the guide rail 45. It is drawn into the plate case 29.

When the support plate 47 is completely retracted in this way, the push cylinder 33 advances by the command of the control program 75a, and the push plate 35 pushes the filter cloth 37 to completely dehydrate the compressed scale in the filter cloth ( 81 is pushed out and put into the scale box 17 through the discharge pipe 15.

When the push cylinder 33 pushes the scale 81 out and contracts, the moving cylinder 49 expands by the command of the control program 75a so that the support plate 47 follows the guide rail 45 along the discharge pipe 15. ) To the inside to block the hole of the discharge pipe (15).

Through this process, one cycle is completed, and the apparatus of the present invention operates repeatedly according to the control condition of the control panel 75 and continuously processes the scale.

When one scale box 17 is full, the operator operates the switch on the control panel 75 to operate the driving motor 67, and the power of the driving gear 71 is transmitted to the driven gear 73 to discharge the outlet 65. ) Rotates, and the operator stops the switch operation when the front end of the outlet 65 comes to the center of the scale box 17 and continues working.

As described above, according to the scale compression dehydration apparatus of the present invention, it is possible to completely remove the moisture of the scale pumped up through the scale conveyor through the compression of the scale. As it does not flow out of the hole, water pollution can be prevented and working environment around the facility can be improved.

In addition, by treating the scale with a cake, it is possible to prevent the generation of dust during recycling in the steelmaking process to prevent air pollution.

In addition, the operator may not be exposed to the scale dust by operating the discharge pipe front end at a position away from the box by the drive motor.

Claims (4)

In the device for separating the scale collected in the scale feet from the separator to pull some scale through the scale gutter, and discharge through the discharge pipe, A filter bag case formed on the left side of the discharge pipe while communicating with the discharge pipe and having a drain pipe formed at a lower portion thereof; A filter cloth fixed between the filter bag case and the discharge pipe; A push cylinder installed in the filter bag case and having a push plate fixed to a rod end thereof located inside the filter bag case; A compression cylinder installed at a right side of the discharge pipe and having a compression plate fixed to a rod end thereof located inside the discharge pipe; And A moving cylinder installed at the front side of the discharge pipe between the filter case and the compression cylinder, and the support plate fixed to its rod end is fixed. Scale compression dewatering device comprising a. The scale compression dehydration apparatus according to claim 1, further comprising a plate case formed at a front side of the discharge pipe so that the support plate is retracted therein and having a guide rail extending to the inside of the discharge pipe. According to claim 1 or 2, wherein the upper level of the discharge pipe is provided with a rotary level sensor is rotated by a motor, connecting a solenoid valve to the push cylinder, the compression cylinder and the moving cylinder, and from the level sensor And the control panel controls the solenoid valves to control the operation of the cylinder when the generated signal is transmitted to the control panel. According to claim 1, wherein the discharge pipe is connected to the lower side of the discharge pipe and the upper side is formed with a driven gear is formed along the outer periphery, the discharge pipe is installed in the discharge pipe is connected to the gear box is adjustable speed and the driven gear on the rotating shaft Scale compression dewatering device further comprises a drive motor is installed to the drive gear is fitted to.

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