KR100428560B1 - An apparatus for removing zinc powder on electrogalvanized strip - Google Patents

Abstract

An apparatus is provided for removing plating powder such as zinc powder (Zn powder), which is essentially generated at the edge of steel sheet in the production of galvanized steel sheet.

The plating powder removing apparatus 1 is installed at both sides of the transfer path P of the electroplated steel sheet 10 and fixed to the lower side of the slide unit 20 installed to vary according to the width of the steel sheet 10. A header (40); and a driving member (50) vertically mounted in the longitudinal direction of the header (40); And fixedly connected to the lower side of the driving member 50 to be in close contact with the steel plate edge 10a on the conveying path P to remove the plating powder of the steel sheet edge when the driving member 50 is driven and to remove powder from the steel sheet edge. It is composed of; powder removal means 70 having a plurality of shapes so as to improve the properties.

Therefore, according to the present invention, as a plurality of polishing rolls and brushes which are driven in a state in which the driving force is adjusted as air in contact with the edge portions of the steel sheet on both sides of the feed path of the steel sheet, and the position can be adjusted in the width direction of the steel sheet. It is to provide an effect of effectively removing the zinc powder at the edge of the steel sheet.

Description

Automatic removal of plating powder of electroplated steel sheet {AN APPARATUS FOR REMOVING ZINC POWDER ON ELECTROGALVANIZED STRIP}

The present invention relates to a device for removing zinc powder (Zn powder) that is essentially generated at the edge of the steel sheet in the manufacture of the galvanized steel sheet, which is particularly, the edge portion of the steel sheet on both sides of the feed path of the steel sheet Electroplated steel sheet which makes it possible to remove the plating powder at the edge part of the steel sheet very easily with a plurality of polishing rolls and a brush which can be driven in a state where the driving force is adjusted in contact with air, and in particular, the width position control of the steel sheet is possible. The present invention relates to an automatic removal of plating powder.

In general, in the conventional color steel sheet manufacturing process, the zinc powder remains in the color process unless the zinc powder generated at the edge of the electro-galvanized iron supplied to the material of the color steel sheet is removed. Therefore, the surface of the color steel sheet, which has been painted, causes secondary defects or surface defects such as teeing, which causes the product of the color steel sheet to be defective.

Therefore, in order to remove the zinc powder generated at the edge portion of the galvanized steel sheet as described above, after ordering the edge portions of both sides of the steel sheet in consideration of the margin width of about 3mm margin width when ordering the material from the beginning, When zinc powder is generated at the edge of the steel sheet, zinc is generated at the edge of the steel sheet by cutting the edge of the steel sheet using a side trimming knife at the slitting line before manufacturing the colored steel sheet. The powder was removed.

However, by cutting the edge portion of the steel sheet by using the side trimming knife, the conventional method of removing the zinc powder of the steel sheet edge portion has to be ordered with a margin at the time of ordering the material, which results in unnecessary material cost and additional steel sheet cutting. Since the process is essential, the production cost is increased, and a number of additional operations are required for the maintenance and maintenance of the side trimming knife.

On the other hand, in order to prevent the formation of zinc powder on the edge of the steel sheet during the manufacturing process, instead of electroplating, the hot dip galvanizing process is adopted to perform the galvanizing process of the steel sheet, but it is used as an address material for color steel sheet. Hot-dip plating of thin plate material (40 g / mm2) is a significant difficulty.

Therefore, it is more preferable to automatically remove the plating powder of the edge portion of the edge portion of the galvanized steel plate through the galvanizing process as a collecting device, and to vary the width according to the width of the steel sheet.

The present invention has been made in order to improve the various conventional problems as described above, the object of which is the zinc powder of the steel sheet edge portion inevitably generated during the production of electro-galvanized steel sheet for the material mainly used in the color factory In addition to the brush, the same plating powder is added to the side, the bottom and the top of the steel sheet edges, and in particular, it is completely removed during the transport of the steel sheet by the polymorphic polishing rolls, which is generated during the production of the color steel sheet by the remaining plating powder. An object of the present invention is to provide an automatic plating powder removal device for an electroplated steel sheet which prevents defects of steel sheets to be prevented in advance and improves product productivity.

1 is a side configuration diagram showing an installation state of the automatic plating powder removal apparatus of the plated steel sheet according to the present invention

Figure 2 is a front configuration diagram showing an automatic plating powder removal apparatus of the present inventors electroplating steel sheet

Figure 3 is a schematic plan view showing the plating powder automatic removal device of the present inventors electroplating steel sheet

Figure 4 is a side view showing the main portion and the plating powder removing means of the present invention the plating powder automatic removal device of the electroplating steel sheet of the present invention

Figure 5 is a front view showing the main part showing the header and plating powder removing means of the automatic plating powder removal apparatus of the present inventors electroplating steel sheet

Figure 6 is a plan view showing the main part of the header and plating powder removing means of the automatic plating powder removal apparatus of the present inventors electroplating steel sheet

Explanation of symbols on the main parts of the drawings

1 .... Plating powder removal device of steel plate 10 .... Electroplated steel plate

10a .... steel sheet edge 20 .... slide unit

26 .... Support 28 .... Guide Rod

30 .... ball bush 32 .... drive motor

34 .... Coupling Unit 36 .... Ball Screw

38 .... Ball Screw Nut 40 .... Header

42 .... header bottom plate 42a .... bottom plate opening

50 .... Air motor 52 .... Fixed block

54 .. Cover block 56 .... Fixing groove

70 .... powder removal means 72 ... grinding roll

74 .... Brush 76 .... Fixed Rod

78 .... Guide roll

The present invention as a technical configuration for achieving the above object, in the apparatus for removing the plating powder generated at the edge of the steel plate electroplated as a brush on one side while guiding the edge as a guide roll moving on both sides of the steel sheet A header fixed to a lower side of a slide unit installed as a ball screw driven by a motor so as to correspond to the width of the steel sheet to both sides of the transfer path of the electroplated steel sheet; And a driving member comprising a plurality of vertically mounted and air-driven air motors in the longitudinal direction of the header; And, in addition to the brush connected to and fixed to the lower side of the driving member, which is the air motor, to remove the plating powder while being in close contact with the steel sheet edge on the transport path, the steel sheet edge is in close contact with each of the side, bottom and top sides of the steel sheet edge. Powder removal means having a plurality of polishing rolls formed in a plurality of shapes to increase the plating powder removal properties of the electroplating steel plate comprising a;

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

1 is a side configuration diagram showing the installation state of the automatic plating powder removal device of the inventors plated steel plate, Figure 2 is a front configuration diagram showing the automatic plating powder removal device of the present invention, Figure 3 is the inventors automatic plating powder Figure 4 is a schematic plan view showing the removal device, Figure 4 is a side view of the main portion showing the header and the plating powder removing means of the present invention, the plating powder automatic removal device, Figure 5 is a front view of the main portion showing the header and plating powder removal means, 6 is a plan view of the main portion showing the header and the plating powder removing means.

1 and 2 show the overall configuration of the automatic plating powder removal device 1 of the present invention electroplated steel sheet, to remove the plating powder generated at the edge (10a) of such an electroplated steel sheet (10). The apparatus 1 of the present invention can be largely divided into a header 40, a driving member 50, and a powder removing means 70, and the components 40, 50, 70 are shown in FIG. Looking in detail as follows.

First, Figures 1 to 3 show the header 40 of the automatic plating device removal apparatus 1 of the present invention electroplated steel sheet, such a header 40 is a transfer path of the electroplated steel sheet 10 (P) It is provided on both sides and is integrally fixed to the lower side of the slide unit 20 provided to vary depending on the width of the steel sheet 10.

On the other hand, as shown in Figure 2, the horizontal bar 24 is fixed to the upper portion of the vertical stand 22 of the apparatus 1 of the present invention, the lower portion is bolted to the lower side of the horizontal stand 24 Guide rods 28 are connected to the front and rear walls 26a and 26b of the open inverted U-shaped support 26, and ball bushes 30 through which the guide rods 28 pass are installed on both sides. The slide unit 20 is made of a rectangular frame shape.

And, as shown in Figure 3, between the ball bush 30 of the slide unit 20 is connected to the support 26 as a driving motor 32 and a coupling unit 34 mounted horizontally on one side Screw 36 is connected to rotate.

On the other hand, as shown in Figure 2 and 3, the slide unit 20 as described above is equipped with a ball screw nut 38 to which the ball screw 36 is fastened so that the slide when driving the ball screw 36 The unit 20 is configured to move forward and backward while being supported as the guide rod 28.

In addition, as shown in FIG. 5, the header 40 is firmly fixed to the bottom of the slide unit 20 as a bolt, and therein, a driving member, that is, an air operated air motor 50 to be described later. Is formed in a rectangular frame shape in which a plurality of spaces (A) are formed, and a plurality of openings 42a through which the air motor 50 passes are integrated in a straight line in the lower plate 42 of the header 40. It is formed.

Next, as shown in FIGS. 2, 3, and 5, a plurality of vertical members are mounted in the longitudinal direction of the header 40 and the driving member has a lower portion partially projecting through the opening 42a of the header 40. As described above, the air motor 50 is composed of an air motor that is rotationally driven as air, and the air motor 50 is a fixing block 52 bolted to the header lower plate 42 and a cover block 54 bolted thereto. It is vertically fixed between the half arc-shaped fixing grooves 56a and 56b formed integrally therebetween.

In addition, an air supply pipe 60 to which an on-off valve 58 is connected is connected to an upper portion of the air motor 50 so that the air motor 50 is driven when air is supplied.

Next, as shown in FIGS. 2 to 4, the powder removing means 70 of the apparatus 1 of the present invention to remove the plating powder generated at the edge portion while substantially in contact with the steel sheet edge portion 10a. It is connected to and fixed to the lower side of the air motor 50 to be in close contact with the steel plate edge (10a) on the transport path (P in Fig. 1) to remove the plating powder of the steel plate edge when the air motor 50 is driven, It has a number of shapes to enhance powder removal.

On the other hand, the powder removing means 70 of the present invention device 1 is connected to the lower portion of the drive member 50 is integrally driven and in contact with the edge portion (10a) of the steel sheet 10 to the plating powder A plurality of polishing rolls 72a, 72a ', 72b and 72c to be removed and a brush 74 for cleaning the steel sheet edge portion 10a from which powder is removed as the polishing roll 72 may be divided. .

In addition, a plurality of guide rolls 78 mounted between the polishing rolls 72 and fixed to the fixed rods 76 welded to the lower plate 2 of the header 30 to support them during the transfer of the steel sheet edge portion 10a. 4), as shown in FIG. 4, the guide ball 78 is fixed via a bearing to a screw shaft (78a) that is screwed to the inside of the fixing rod (76).

And, as shown in Figure 4, the powder removal polishing rolls 72, can be divided into 1-4 polishing rolls, which are arranged before and behind the header 40 and the steel sheet edge portion ( The first and fourth polishing rolls 72a and 72a 'formed in a cylindrical shape in contact with the side surface of the surface 10a and the rear surface of the first polishing roll 72a to be in close contact with the bottom side of the steel sheet edge portion 10a. A second polishing roll 72b formed in an inverted triangle shape and a third polishing roll disposed between the second polishing roll and the fourth polishing roll and formed in a triangular pyramid shape in close contact with the upper side of the steel sheet edge portion 10a. 72c).

Referring to the operation of the present invention made in the above configuration in more detail as follows.

As shown in Figs. 1 to 6, the apparatus 1 of the present invention to efficiently remove the zinc powder generated at the edge portion 10a of the steel sheet 10 during the electro zinc plating process is as follows. same.

First, as shown in FIG. 1, the galvanized steel sheet 10 subjected to electro-galvanization is composed of a powder removing means 70 of the apparatus 1 of the present invention as a pinch roll R1 and a deflector roll R2. Plating powder such as zinc powder generated at the edge portion 10a is removed while passing through the plurality of polishing rolls 72 and the brush 74, at which time the transport path of the steel sheet 10 (P in FIG. 1). Should be adjusted to coincide with the respective polishing rolls 72 and the brush 74.

Meanwhile, as shown in FIGS. 2 and 3, the polishing rolls 72 and the brush 74, which are the powder removing means 70 as described above, have a width corresponding to the width of the steel sheet 10 entering the apparatus 1. Depending on the width of the steel sheet 10, the function of adjusting the position of the powder removing means 70 is as follows.

First, when the drive motor 32 mounted horizontally as a bracket 32a is operated outside the support 26 provided on both sides of the bottom of the horizontal stand 24 provided above the vertical stand 22 of the apparatus 1, The ball screw 36, which is connected as the coupling unit 34 and is installed to rotate through a bearing between the supports 36a and 36b, is integrally driven.

Accordingly, as shown in FIG. 2, the slide unit 20 having the ball screw nut 38 to which the ball screw 36 is fastened to the center side is provided with guide rods connected between the supports 36 at both sides thereof. 28, the bushing 30 fixed to both sides of the ball screw nut 38 is supported, the slide unit 20 is moved to the left and right when viewed from the front of the device 1, and eventually the horizontal bar ( 24, the pair of slide units 20 are moved in opposite directions to each other to be adjusted in accordance with the width of the steel sheet 10 entering the apparatus 1, the width of which is shown in the drawings. Although not measured, the measurement may be performed at the initial position of entry of the apparatus 1 using a sensor or the like, and then the driving motor 32 may be electrically connected to an operation panel connected to control.

At this time, as shown in Figures 2 to 4, the header 40 is fixed to the lower side of the slide unit 20 as a bolt integrally, the movement of the slide unit 20 is eventually moved to the header 40 Therefore, the polishing rolls 72 and the brush 74 installed in the header 40 are integrally moved to the edge 10a of the steel sheet 10 as shown in FIG. 6. It is a precise contact.

Next, as shown in FIGS. 4 to 6, the header 40 has a central portion connected to the reinforcing arm 44 and a lower plate 42 horizontally formed below is integrally formed, and the lower plate 42 is formed. The silver is elongated to a certain length in the advancing direction of the steel sheet, so that four polishing rolls 72a, 72b, 72c, 72a 'and one brush 74 may be installed, but the present invention is not limited thereto. If the amount of plating powder is generated according to the plating environment, it may be possible to install more polishing rolls 72.

In this case, each of the polishing rolls 72 and the brush 74 is driven by a drive member mounted on the header 40, that is, an air motor 50 driven as air, and fixed to the lower portion thereof.

Meanwhile, the air motor 50 partially protrudes downward through the opening 42a formed in the lower plate 42 of the header 40, and the air motor 50 passes through the bottom of the header lower plate 42. The lower plate 42 of the header 40 is fitted into the fixing groove 56a of the fixing block 52 to be bolted and the fixing groove 56b of the cover block 54 to be fixed as a bolt horizontally to the fixing block 52. When the air motor 50 is not vertically fixed, the eccentricity is applied to the polishing rolls 72 that directly contact the edge 10a of the actual steel sheet 10 and remove the plating powder. Since a load is applied, its precise adjustment is necessary.

In addition, although the brush 74 is shown to be connected to the air motor 50 mounted vertically, the brush 74 contacts the steel plate edge part 10a directly like the polishing roll 72. Since the air motor 50 is inclined to a certain degree, the steel sheet contact portion of the brush 74 may be enlarged.

Therefore, when driving in a state in which the driving speed of the air motor 50 is adjusted while adjusting the air supply amount according to the opening and closing of the open / close valve 58 through the air supply pipe 60 connected to the upper portion of the air motor 50, polishing The plating powder of the steel plate edge 10a by the roll 72 and the bracket 74 can be removed completely, and although not shown in the figure, the flow rate control which changes the air amount by installing the electronic opening / closing valve in the supply pipe 60 is shown. It may be desirable to adjust the driving force of the air motor 50 through the valve according to the thickness of the steel sheet and the adhesion state of the plating powder.

At this time, as shown in Figure 4, between the polishing rolls 72 screw shaft fixed to the fixing rod 76 welded to the lower plate 42 of the header 40 and fixed as a wedge 76b ( Guide rolls 78 fixed and idle at 76a) maintain a constant feed of the steel sheet 10 so as to precisely maintain the plating powder removal at the steel sheet edge 10a.

However, as shown in FIG. 4, the powder removal polishing rolls 72 may be divided into first to fourth polishing rolls, and the edge of the steel sheet 10 passes through the first polishing roll 72a having a cylindrical shape. While the powder at the edge edges is removed, the bottom side is more tightly adhered at the edge edges while passing through the second triangular polishing roll 72b, and then the triangular pyramidal third polishing roll 72c. After passing through the upper side, the upper side is in close contact with each other, so that the powder removing operation of the steel sheet edge portion 10a is surely performed, and then passes through the cylindrical fourth polishing roll 72a 'and the edge edge surface After the powder is removed again, and finally, the remaining powder powder is finally removed while passing through the brush 74, the cleaning of the steel sheet edge 10a is performed, and it may be possible to install more than one brush 74.

At this time, as shown in Figure 6, because the diameter of the brush 74 is large, in order to be in close contact with the steel sheet edge (10a), the center of the other than the other polishing rolls 72 are installed by H spaced apart Should be.

Therefore, while the steel sheet edge 10a continuously passes in close contact with the four guide rolls 78, the polishing rolls 72, and one brush 74, plating powder such as zinc powder can be effectively removed. Although not shown in the drawings, it is preferable to provide a dust collecting duct for collecting the powder powder removed in the steel sheet traveling direction, and it is also possible to additionally install a roll wound with a cotton cloth for cleaning the steel sheet edge 10a. will be.

Accordingly, according to the present invention, the automatic plating powder removal apparatus 1 of the electroplated steel sheet does not require cutting operation by the side trimming knife for removing the plating powder generated at the edge 10a of the conventional electroplated steel sheet 10. In addition, since the powder removing operation is completely performed while passing through a plurality of polishing rolls and brushes, it is possible to prevent defects in manufacturing colored steel sheets due to residual powder.

As described above, according to the present invention, the plating powder automatic removal device of the electroplated steel sheet is brushed with a powder powder such as zinc powder at the edge portion of the steel sheet, which is inevitably generated during the production of the galvanized steel sheet for a thin material mainly used in a color factory. In addition, polymorphic polishing rolls that adhere to the side, bottom, and top side of the steel sheet edges are automatically and completely removed during transportation of the steel sheet, thereby preventing the defects of the steel sheet produced during the production of the color steel sheet by the remaining plating powder. In order to improve the overall product productivity while avoiding the need for ordering in consideration of the margin of steel sheet for removing the existing plating powder, it is possible to provide an excellent effect that enables the ordering of materials at the width of the final product.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (6)

Apparatus for removing the plating powder generated at the edge 10a of the steel plate 10 electroplated with the brush 74 on one side while guiding the edge 10a with the guide rolls 78 moving on both sides of the steel plate 10. In (1), Header fixed to the lower side of the slide unit 20 installed so as to vary the position as a ball screw 36 which is motor-driven to correspond to the width of the steel sheet 10 to both sides of the transfer path (P) of the electroplated steel sheet 10 40; Wow, A driving member (50) comprising a plurality of vertically mounted and air-driven air motors in the longitudinal direction of the header (40); And, In addition to the brush 74 which is connected to and fixed to the lower side of the drive member 50 which is the air motor and is in close contact with the steel plate edge 10a on the transfer path P, the brush 74 is configured to remove the plating powder, the steel plate edge 10a. Powder removal means (70) having a plurality of polishing rolls (72) formed in a plurality of shapes to be in close contact with each of the side surfaces, the bottom and the top of the steel plate edge (10a) to increase the removal of plating powder; Plating powder automatic removal device of an electroplated steel sheet, characterized in that configured to include According to claim 1, The slide unit 20 is passed through the guide rod 28 connected to the front and rear of the support 26 fixed to the lower side of the horizontal stand 24 fixed to the upper portion of the vertical stand 22 Ball bush 30 is composed of a rectangular frame unit is installed on both sides, the ball screw 36 is a drive motor horizontally mounted on one side of the support 26 between the ball bush 30 of the slide unit ( 32 is connected to the coupling unit 34 and the slide unit 20 is equipped with a ball screw nut 38 to which the ball screw 36 is fastened so that the slide unit 20 when the ball screw 36 is driven. ) Is automatically removed from the plating powder of the electroplated steel sheet, characterized in that configured to move back and forth in the guide rod 28 The space (A) of claim 1, wherein the header (40) is firmly fixed to the bottom of the slide unit (20) as a bolt and has a plurality of drive members (50) disposed therein. It is made of a rectangular frame shape is formed, Automatic plate removal powder of the electroplating steel sheet, characterized in that the lower plate 42 of the header 40 is formed in a linear arrangement a plurality of openings (42a) through which the drive member 50, the air motor passes. According to claim 1, The air motor drive member 50 is a half arc type formed integrally therein between the fixing block 52 bolted to the header lower plate 42 and the cover block 54 bolted thereto Is fixed vertically between the fixing grooves 56a and 56b of the lower portion through the opening 42a of the header 40 to protrude, Automatically remove the plating powder of the electroplated steel sheet, characterized in that the air supply pipe 60 is connected to the opening and closing valve 58 is connected to the upper portion of the drive member 50 that is the air motor. According to claim 1, wherein the guide roll 78 for supporting the edge portion (10a) during the transfer of the steel sheet is mounted on a fixed rod 76 welded to the lower plate 42 of the header 30, the steel sheet Automatic plating device for plating powder of an electroplated steel sheet, characterized in that a plurality is disposed between the plurality of powder removal polishing rolls 72 provided to be in close contact with the side, bottom and top of the edge (10a). The method of claim 5, wherein the plurality of powder removal polishing rolls 72 are formed in a cylindrical shape in front of and behind the steel sheet conveying path P and formed in a cylindrical shape in contact with the side surface of the steel sheet edge 10a. 4 polishing rolls 72a and 72a '; and, A second polishing roll 72b positioned rearward of the first polishing roll 70a and formed in an inverted triangular pyramid shape in close contact with the bottom of the steel sheet edge 10a; And, A third polishing roll 72c disposed between the second polishing roll 72b and the fourth polishing roll 72a 'and formed in a triangular pyramid shape in close contact with the upper side of the steel sheet edge 10a; Plating powder automatic removal device of an electroplated steel sheet, characterized in that consisting of