KR100797357B1 - Dendritic crystal removal device at the edge of steel sheet - Google Patents

Abstract

The present invention relates to an edge portion dendritic crystal removal apparatus of a steel sheet for removing the dendritic crystal formed on the edge portion of the steel sheet due to overplating,

A crystal removing unit having a brush roll 10 installed to rotate in contact with the edge of the steel plate, and a spray nozzle 40 for injecting high pressure air so that the dendritic crystals removed from the edge of the steel plate are separated from the steel plate. It comprises a high pressure air injection unit and a crystal suction unit provided to suck and remove the dendritic crystal blown away from the steel sheet by the high pressure air injection,

According to this structure, it is possible to prevent the dendritic crystals removed at the edges of the steel sheet from falling back to the surface of the steel sheet to contaminate the steel sheet.

Description

An apparatus for removing dendrite from the edge part of a strip}

1 is a schematic configuration diagram showing an edge dendritic crystal removal apparatus of a steel sheet according to the prior art;

2 is a schematic configuration diagram showing an edge dendritic crystal removal apparatus of a steel sheet according to the present invention;

3 is a plan view of FIG. 2;

4 is a detailed view showing the main part of the present invention;

5 is a detailed view showing a brush roll of the present invention;

6 is a detailed view showing the injection nozzle of the present invention;

7 is a detailed view showing the sensor configuration of the present invention;

8 is a detailed view of the housing of the present invention.

※ Explanation of symbols about main part of drawing ※

10 brush roll 12 body

14: brush frame 15: brush

16: spring 20: housing

26: crystal suction hole 30: crystal discharge piping

40: injection nozzle 42: high pressure air supply pipe

50: support frame 52: rotating motor

58: rack 60: connecting frame

62: lifting motor 64: pinion

70: main motor 72: cylinder

88: sensor S: steel sheet

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an edge dendritic crystal removal apparatus of a steel sheet, and more particularly, to an edge dendritic crystal removal apparatus of a steel sheet for removing dendritic crystals formed on the edge portion of a steel sheet due to overplating.

In general, when plating a steel sheet, when overplating occurs due to overcurrent, dendrite, a dendritic crystal in the form of a tree, is formed at an edge portion of the steel sheet.

Such dendritic crystals are separated from the edges of the steel sheet during the painting operation and are mixed with the paint, thereby degrading the quality of the coating site, and during the press work of the coated steel sheet, the dendritic crystals flow into the press equipment, which may cause a shape defect of the press product. do.

1 shows a conventional apparatus for removing edge dendritic crystals of a steel sheet.

According to this, the dust collector 1 is installed on the traveling path of the steel sheet S so that foreign matters such as dendritic crystals removed from the edges of the steel sheet are removed by the self-weight or the like. It is configured to be removed and collected in the collecting container (2) formed at the bottom of the.

In addition, the inside of the dust collector 1 is provided with a crystal removing rod (3) having an annular rod shape formed long up and down so that the crystal removing rod (3) contacts the edge of the steel sheet (S) and the edge of the steel sheet (S). The dendritic crystal formed in the layer is removed.

In addition, inside the dust collector 1, high pressure air is applied in a direction to prevent the dendritic crystals removed from the edge of the steel sheet S by the crystal removing rod 3 from adhering to the surface of the steel sheet S. A spray nozzle 4 for spraying is installed.

That is, when the crystal removal rod 3 contacts the edge of the steel sheet S and removes the dendritic crystal formed at the edge of the steel sheet S, the high-pressure air injected from the injection nozzle 4 displaces the dendritic crystal in the steel sheet S. The dendritic crystals blown away from each other and thus moved away from the edge of the steel sheet S can be removed from the edge of the steel sheet S by being collected in the collecting container 2 by self weight or the like.

However, the above-described conventional apparatus prevents the dendritic crystals from reattaching to the surface of the steel sheet S by the high pressure air injected from the spray nozzle 4, but is substantially the resin phase separated from the edge portion of the steel sheet S. Crystals were suspended due to high pressure air, but some of them were stuck again on the surface of the steel sheet (S), so that the surface quality of the steel sheet was deteriorated.

In addition, when the contact pressure formed between the crystal removal bar 3 and the edge portion of the steel sheet S is excessively large, the crystal removal bar 3 is also easily broken.

Accordingly, the present invention is to solve the above-mentioned conventional problems, the dendrite crystals formed in the edge portion of the steel sheet due to the over-plating to clean, in particular, the dendritic crystals or powder of the existing abrasive grind removed from the edge portion of the steel sheet In addition, the brush roll is resiliently prevented from falling on the surface of the steel sheet, and in particular, the brush roll is elastically installed, and the brush roll and the steel sheet edge contact portion can be continuously changed by moving in the direction of the steel sheet thickness. It is an object of the present invention to provide an edge dendritic crystal removal device of a steel sheet which makes it possible to prevent local wear of a roll.

As a technical configuration for achieving the above object, the present invention is an apparatus for removing the dendritic crystal formed in the edge portion of the steel sheet due to overplating,
A high pressure air injector having a brush roll installed to rotate in contact with the edge of the steel plate; and a high pressure air jet nozzle for injecting high pressure air so that the dendritic crystals removed from the edge of the steel plate are separated from the steel plate; And a crystal suction unit installed to suck and remove the dendritic crystal blown away from the steel plate by the high pressure air injection.
The high-pressure air injection unit and the crystal suction unit are mounted on both sides of the brush roll so as to rotate together with the brush roll, and the brush roll is fixed to the outside of the brush support which is disposed on the brush roll body, the brush paper It is composed of a spring providing an elastic force so that the earth is kept at a distance from the brush body,
The brush roll is rotatably mounted to a support frame formed with a rack extending in the thickness direction of the steel plate, and the support frame is provided with a pinion installed to rotate in engagement with the rack, and a lifting motor connected to rotate the pinion. It is characterized in that the dendritic crystal removal device of the edge portion of the steel sheet is mounted to be movable in the thickness direction of the steel plate to the connecting frame is mounted to the main frame to be movable in the width direction of the steel sheet.

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

FIG. 2 is a schematic configuration diagram showing an edge dendritic crystal removal apparatus of a steel sheet according to the present invention, and FIG. 3 is a plan view of FIG.

The apparatus of the present invention has a crystal removal portion for removing the dendritic crystals from the edge portion of the steel sheet.

The crystal removal unit has a configuration in which the dendritic crystals are separated from the edge of the steel sheet using the rotating brush roll 10.

As shown in more detail in FIGS. 4 and 5, the brush roll 10 has a plurality of bodies 12 disposed along a circumferential direction formed by a body 12 having a solid cylindrical shape and an outer diameter of the body 12. The brush support 14 provided to be movable in the radial direction of the body 12, the brush 15 fixed to the outer diameter side of the brush support 14, and the brush support 14 is the body 12 And a spring 16 that provides an elastic force to be kept at a distance away.

The brush support 14 is installed to be movable in the radial direction of the body 12 may be implemented in various forms. In the present invention, the brush support 14 is formed so as to have a housing 17 fixed to the body 12, the housing 17 is fixed to the housing 17 to move and is formed to have a long length in the radial direction of the body (12) A configuration having a slider 18 fixed to the stopper 19 and a stopper 19 for preventing the slider 18 from falling out of the housing 17 is presented. In this structure, the contact portion of the slider 18 and the housing 17 has a configuration capable of preventing relative rotation, for example, a configuration in which the cross-sectional shape is formed in a polygon.

In addition, the brush support 14 is formed to have an approximately circular arc shape, respectively, the overall shape of the brush support 14 has a shape surrounding the body 12 in a ring shape. Preferably, when the brush support 14 is in a position in close contact with the outer diameter portion of the body 12, the distance between the adjacent brush support 14 is close to '0', the brush support ( The center of curvature radius formed between the inner diameter portion and the outer diameter portion of 14) is positioned at the center of the body 12. The brush support 14 is formed to have a cross-section of the 'C' shape, the far side is open from the body 12, the brush 15 is protruded a predetermined distance to the open portion of the brush support (14). It is desirable to have a structure fitted as possible.

The apparatus of the present invention is a high-pressure air injection unit for injecting high-pressure air to blow out the dendritic crystal separated from the edge portion of the steel sheet by the brush roll 10 from the edge portion of the steel sheet, and the edge portion of the steel sheet by high pressure air It has a crystal suction part for sucking the dendritic crystal blown from the.

The high-pressure air injection unit and the crystal suction unit are provided on the upper and lower portions of the brush roll 10, respectively, and the upper and lower configurations of the brush roll 10 are substantially the same, so only the configuration of any one side will be described below. I would like to.

The crystal suction unit has a housing 20 fixed to the body 12 of the brush roll 10, and the housing 20 is fixed to both ends of upper and lower sides of the body 12 and the brush roll 10. By having an outer diameter larger than the outer diameter of the approximate shape is formed to have a disk or flange shape.

2, 4 and 8, the housing 20 has an inner wall 22 constituting a portion adjacent to the brush roll 10, and an approximate disc forming a portion distant from the brush roll 10. As shown in FIG. The outer wall 24 is formed to have a shape and the edge thereof is connected to the edge of the inner wall 22 in a sealed form. The inner wall 22 is formed to have an inclination of a predetermined angle, and the inclination is set to have a predetermined angle to the side opposite to the side where the brush roll 10 is located with respect to the surface perpendicular to the brush roll 10.

A plurality of crystal suction holes 26 are formed in the inner wall 22, and the crystal suction holes 26 are disposed at regular intervals along the circumferential direction of the inner wall 22.

The inside of the housing 20 is connected to generate suction force through the crystal suction hole 26 and also provides a crystal discharge pipe for providing a passage through which the dendritic crystal sucked through the crystal suction hole 26 is discharged. 30 is connected.

Preferably, the crystal suction passage 34 is in close contact with the inner wall 22 in the interior of the housing 20, a space 33 is formed therein, and penetrates through the same position as the crystal suction hole 26. Is provided with a suction connection member 32 is fixed, in this case, the suction connection member 32 is connected to the crystal discharge pipe (30).

The high pressure air injection unit has an injection nozzle 40 fixed to the housing 20.

The injection nozzle 40 is installed to receive the high pressure air through the high pressure air supply pipe 42, the high pressure air supply pipe 40 is formed to surround the crystal discharge pipe 30 is the housing 20 It is connected to the high-pressure air supply header 44 fixed to the.

Preferably, the injection nozzle 40 has a shape surrounding the edge of the housing 20 as shown in Figures 4 and 6, the direction of the high-pressure air injected from the injection nozzle 40 is the brush roll It is set to face the approximate center part of (10).

And, the high-pressure air supply pipe 42 may be formed of a plurality of spaced apart a predetermined interval along the circumferential direction of the housing 20, as shown in Figure 3, in this case, the injection nozzle 40 is divided into several Is configured in the form is connected to the high pressure meat supply pipe 42, respectively.

The crystal removing unit, the crystal suction unit and the high pressure air jet unit are rotatably mounted to the support frame 50, and the rotation center line thereof is set to coincide with the center line of the body 12 forming the brush roll 10.

The support frame 50 rotatably supports the high pressure air supply header 44 as shown in FIG. 2, and the support frame 50 rotates to provide rotational power to the high pressure air supply header 44. The motor 52 is installed.

In addition, the rotational force of the rotary motor 52 may be provided to the high pressure air supply header 44 in various forms, and in the present invention, each of the sprockets may be provided on the rotary shafts of the high pressure air supply header 44 and the rotary motor 52. 54 and 55 are installed and the sprockets 54 and 55 are connected by a chain 56. Therefore, when the rotary motor 52 is rotated, the crystal removing unit, the crystal suction unit and the high pressure air injection unit connected to receive the rotational power is rotated.

In addition, the support frame 50 is mounted to the connecting frame 60 to move in the thickness direction of the strip (S), that is, the vertical direction of FIG. In addition, the support frame 50 is provided with a rack 58 extending in the vertical direction of Figure 2, the rack 58 is rotated by the lifting motor 62 mounted to the connection frame 60 Is engaged in engagement with the pinion 64. Therefore, when the lifting motor 62 is rotated, the rotational motion is converted into the vertical motion of the support frame 50 through the rack 58 and the pinion 64.

The connecting frame 50 is connected to the main frame 70 via the cylinder 72, the main frame 70 is fixed to the fixed element, for example, the floor or the frame of the installation.

The cylinder 72 is operated to move the support frame 50 in a direction approaching or away from the steel sheet (S).

In addition, the connection frame 50 is provided with a detection unit 80 for detecting the position of the edge portion of the steel sheet (S), as shown in Figure 3, the detection unit 80 is shown in Figures 3 and 7 As shown, the gear box 84 fixed to the connecting frame 50, the moving shaft 82 is connected to the gear box 84 to be moved forward and backward toward the steel sheet (S), and the gear box 84 It includes a motor (86) connected to the) and the sensor 88 is installed at the end of the moving shaft 82 for detecting the edge portion of the steel sheet (S).

The crystal discharge pipe 30 and the high pressure air supply header 44 are connected to the connection pipes 91 and 92 via the bearing 90, and the connection pipes 91 and 92 are stretched pipes. (93) and (94), respectively, connected to the main pipe (95, 96), the main pipe (95, 96) is a suction fan (not shown) and a high pressure air supply pump (not shown), respectively Is connected to.

A controller (not shown) which is pre-programmed to supply power to a place where power is required among the above components, and to receive an edge detection signal of the steel sheet S from the sensor 88 to perform an operation described below. Of course, it is also possible to operate these components manually.

The operation of the present invention having such a configuration will be described.

When the apparatus of the present invention is operated, a suction fan and a high pressure air supply pump are operated to generate suction power through the crystal suction hole 26 of the housing 20, and high pressure air is injected through the injection nozzle 40. .

In addition, the rotary motor 52 is operated to rotate the brush roll 10, the housing 20, and the injection nozzle 40 installed in the housing 20.

Then, the drive frame 60 and the support frame 50 mounted thereon are moved toward the edge portion of the steel sheet S by the driving of the cylinder 72, and the sensor 88 detects the edge portion of the steel sheet S. The cylinder 72 stops.

Therefore, while the brush 15 of the brush roll 10 contacts and rotates the edge part of the steel plate S, the dendritic crystal formed in the edge part of the steel plate S can be removed.

The dendritic crystals removed at the edges of the steel sheet S are sucked through the crystal suction holes 26 and removed.

At this time, the high-pressure air injected from the injection nozzle 40 acts so that the dendritic crystal removed from the edge portion of the steel sheet S is sucked into the crystal suction hole 26 without being attached to the surface of the steel sheet S again.

Then, the brush 15 of the brush roll 10 is in contact with the edge portion of the steel sheet (S) by the spring 16 at an appropriate pressure.

The brush roll 10 may be lifted up and down by the driving of the lifting motor 62. Thus, when the brush roll 10 is lifted up and down, the brush 15 provided in the brush roll 10 is evenly worn. This is effective for extending the life of the brush roll 10.

Nevertheless, when the brush roll 10 is used for a predetermined time, the efficiency of removing the dendritic crystal from the edge portion of the steel sheet S is reduced by abrasion of the brush 15. In this case, the motor of the sensor 88 When a certain distance, for example, about 1 to 2 mm, is moved in the direction away from the edge portion of the steel sheet S by the driving of the 86, the cylinder 72 is driven again, and the brush roll 10 causes the edge of the steel sheet S to move. By moving about 1 to 2 mm toward the negative side, the removal efficiency of the dendritic crystal can be maintained.

As described above, according to the edge portion dendritic crystal removal apparatus of the steel sheet according to the present invention, the dendrite crystals formed in the edge portion of the steel sheet due to overplating is cleanly removed, and in particular, the dendritic crystal or the existing abrasive grind removed from the edge portion of the steel sheet To effectively prevent the powder from falling back on the surface of the steel sheet to contaminate the steel sheet, and in particular, the brush roll is elastically installed and the sheet thickness can be moved in the direction of the steel sheet so that the brush roll and the steel sheet edge contact portion can be continuously To provide an excellent effect that makes it possible to vary and prevent local wear of the brush roll.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (8)

An apparatus for removing dendritic crystals formed at the edges of a steel sheet due to overplating, A crystal removing unit having a brush roll 10 installed to rotate in contact with the edge of the steel sheet S; and a spray nozzle for injecting high-pressure air so that the dendritic crystals removed from the edge of the steel sheet are separated from the steel sheet. A high pressure air injection unit having 40); And a crystal suction unit installed to suck and remove the dendritic crystal blown away from the steel plate by the high pressure air injection. The high-pressure air injection unit and the crystal suction unit are mounted on both sides of the brush roll 10 so as to rotate together with the brush roll 10, and the brush roll 10 includes a plurality of brushes disposed on the brush roll body 12. Brush 15 is fixed to the outside of the support 14, and the brush support 14 is composed of a spring 16 for providing an elastic force to be kept at a distance from the brush body 12, The brush roll 10 is rotatably mounted to a support frame 50 having a rack 58 extending in the thickness direction of the steel sheet S, and the support frame 50 is engaged with the rack 58. A pinion 64 installed to rotate and a lifting motor 62 connected to rotate the pinion 64 are provided to be connected to the main frame 70 so as to be movable in the width direction of the steel plate S. The dendritic crystal removal device of the edge portion of the steel sheet, characterized in that it is mounted so as to be movable in the thickness direction of the steel sheet (S). delete According to claim 1, wherein the brush support 14 of the brush roll 10, each of which is arranged along the circumferential direction around the brush roll body 12, the radius around the body 12, respectively It is installed to be movable in the direction, the edge portion of the steel sheet dendritic crystal removal apparatus, characterized in that formed so as to have a circular arc shape around the brush roll body (12) from the brush roll body (12). According to claim 1, wherein the crystal suction portion, the housing 20 is formed in a flange shape having an outer diameter size larger than the outer diameter size of the brush roll 10 is fixed to both sides of the brush roll 10, and the A steel sheet, characterized in that it comprises a crystal suction hole 26 formed in the mutually facing portions of the housing 20 and a crystal discharge pipe 30 connected to provide the suction force formed by the suction fan to the crystal suction hole 26. Dendritic crystal removal device of the edge. The method of claim 1, wherein the injection nozzle 40 of the high pressure air injection unit is arranged to inject high pressure air toward the center of the brush roll 10 in the upper and lower portions of the central portion of the steel sheet (S) of the steel sheet Edge dendritic crystal removal device. delete delete According to claim 1, The connecting frame 60 and the main frame 70 is connected by a cylinder 72 so that the connecting frame 60 in the width direction of the steel plate (S) to the main frame 70 It is mounted so as to be movable, and the connecting frame 60 is moved forward and backward toward the steel sheet (S) is provided with a sensor 88 for detecting the edge portion of the steel sheet (S), the edge portion of the steel sheet dendritic crystal removal Device.

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