KR20160001471A - De-scaler for rolling facilities - Google Patents

Abstract

Disclosed in the present invention is a descaler for a rolling device. According to the present invention, the descaler for a rolling device comprises: a supply pipeline unit which supplies washing water; a connection unit which communicates with the inside of the supply pipeline unit, guiding the washing water moving along the supply pipeline to the outside of the supply pipeline unit; a nozzle unit coupled to the connection unit to rotate, spraying washing water to a work object moving along the transfer roller; a link unit connected to both sides of the nozzle unit, moves in a linear direction, and rotates the nozzle unit; and a drive unit connected to the link unit by gear, moving the link unit in a linear direction.

Description

[0001] DE-SCALER FOR ROLLING FACILITIES FOR ROLLING DEVICES [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a descaler for a rolling apparatus, and more particularly, to a descaler for a rolling apparatus capable of easily adjusting an injection direction of washing water sprayed toward a workpiece.

In general, steel manufacturing consists of a steelmaking process for producing molten iron, a steelmaking process for removing impurities from molten iron, a casting process for solidifying iron in liquid state, and a rolling process for making iron steel or wire. Since the descaler is provided between the work rollers to be subjected to the hot rolling, the foreign substances attached to the work object can be removed.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2011-0098050 (published on Sep. 01, 2011, entitled "Deserializing Apparatus").

It is an object of the present invention to provide a scaler for a rolling apparatus which can easily adjust the spraying direction of washing water sprayed toward a workpiece.

The descaler for a rolling apparatus according to the present invention comprises: a supply pipe passage for supplying wash water; a connecting portion communicating with the inside of the supply pipe passage portion to guide wash water moved along the supply pipe passage portion to the outside of the supply pipe passage portion; And a link portion connected to both sides of the nozzle portion and moved in a linear direction to rotate the nozzle portion and a gear portion connected to both sides of the nozzle portion and gear connected to the link portion to move the link portion in a linear direction And a driving unit for driving the driving unit.

It is preferable that a plurality of connection portions are provided along the supply pipe portion and include a first connection pipe which is fixed to the supply pipe portion and a second connection pipe which is fastened to the first connection pipe at one side and is rotatably connected to the nozzle portion at the other side Do.

The nozzle unit includes a nozzle body rotatably installed in the connection portion, and a slit hole positioned at one side of the nozzle body through which the washing water is sprayed and guiding the washing water moving along the nozzle body to be sprayed into the workpiece in a slit shape And a nozzle connecting portion connecting the nozzle cover and the nozzle cover to the link portion and rotating the nozzle cover in conjunction with the movement of the link portion.

The link portion includes a first link connected to a nozzle connecting portion protruded to one side of the nozzle cover and a side surface connected to the driving portion and a second link connected parallel to the first link and connected to a nozzle connecting portion protruded to the other side of the nozzle cover. .

It is also preferable that the present invention further comprises a guide portion having a guide hole through which the first link and the second link are passed, and guiding the linear movement of the first link and the second link fixed to the supply pipe portion.

The descaler for a rolling apparatus according to the present invention can adjust the position of the slit hole by rotating a plurality of nozzle covers while the link portion is being moved by the operation of the driving portion. Therefore, the spraying direction of the washing water sprayed toward the workpiece can be easily adjusted, Can be more easily removed.

1 is a schematic view showing a state where a descaler for a rolling apparatus according to an embodiment of the present invention is installed.
2 is a perspective view schematically showing a main configuration of a descaler for a rolling apparatus according to an embodiment of the present invention.
3 is a cross-sectional view schematically illustrating a descaler for a rolling apparatus according to an embodiment of the present invention.
4 is an exploded cross-sectional view of a descaler for a rolling apparatus according to an embodiment of the present invention.
5 is an exploded perspective view of a descaler for a rolling apparatus according to an embodiment of the present invention.
6 is a front view schematically showing a state in which a nozzle portion is connected to a link portion according to an embodiment of the present invention.
7 is a front view schematically showing a state in which a nozzle unit is rotated by movement of a link unit according to an embodiment of the present invention.

A descaler for a rolling apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings. For convenience of explanation, a descaler for a rolling mill installed in a steelworks is taken as an example. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a schematic view showing a state in which a descaler for a rolling apparatus according to an embodiment of the present invention is installed. FIG. 2 is a schematic diagram showing a main configuration of a descaler for a rolling apparatus according to an embodiment of the present invention. FIG. 3 is a cross-sectional view schematically showing a descaler for a rolling apparatus according to an embodiment of the present invention, FIG. 4 is an exploded perspective view of a descaler for a rolling apparatus according to an embodiment of the present invention FIG. 6 is a front view schematically showing a state in which a nozzle unit is connected to a link unit according to an embodiment of the present invention, and FIG. 7 is a front view schematically showing a state in which a nozzle unit is rotated by movement of a link unit according to an embodiment of the present invention.

1 to 4, a descaler 1 for a rolling apparatus according to an embodiment of the present invention includes a supply pipe passage portion 20 in which supply of wash water 12 is performed, a supply pipe passage portion 20 A connection portion 30 which communicates with the inside of the supply pipe path portion 20 and guides the washing water 12 moved along the supply pipe path portion 20 to the outside of the supply pipe path portion 20, A nozzle unit 50 connected to both sides of the nozzle unit 50 and rotated in a linear direction to rotate the nozzle unit 50, And a driving unit 70 that is connected to the link unit 60 so as to be meshed with the link unit 60 and moves the link unit 60 in a linear direction.

When the rolling process is performed, the workpiece 14 is moved along the feed roller 10 and passes through the work rollers to be rolled. The washing water 12 is sprayed onto the workpiece 14 passing between the pair of work rollers in order to remove the scales generated on the surface of the workpiece 14 after the predetermined number of rolling processes.

The descaler 1 for the rolling apparatus is provided on the upper side and the lower side of the conveying roller 10 so that the washing water 12 is sprayed on the upper surface and the lower surface of the workpiece 14 moving along the conveying roller 10, The scale formed on the surface of the object 14 is removed.

The supply pipe passage portion 20 is provided above and below the transport roller 10 in a state of being separated from the transport roller 10. The supply line portion 20 is installed along the width direction of the workpiece 14 moved along the feed roller 10 and receives the wash water 12 supplied from the outside.

The connecting portion 30 is formed in various shapes within the technical concept of communicating with the inside of the supply pipe passage portion 20 and guiding the wash water 12 moving along the supply pipe passage portion 20 to the outside of the supply pipe passage portion 20 . The connection portion 30 may be formed of a single member, and a plurality of conduits may be connected to each other. The connecting portion 30 according to one embodiment includes a first connecting conduit 32 and a second connecting conduit 36.

A plurality of first connection conduits 32 are provided along the supply conduit section 20 and one side of the first connection conduit 32 is fixed to the supply conduit section 20 by welding or the like. A second connection pipe 36 is connected to the other side (reference lower side in FIG. 2) of the first connection pipe 32. An outer thread portion 34 is formed on the outer side of the first connection pipe 32 inserted into the second connection pipe 36.

As shown in Figs. 3 to 5, the second connection conduit 36 is fastened to the first connection conduit 32 on one side (reference left side in Fig. 4) and on the other side of the second connection conduit 36 And the nozzle unit 50 is rotatably connected. The inner thread portion 38 is formed on the inner side of the second connection pipe 36 facing the outer thread portion 34 so that the inner thread portion 38 is fastened to the outer thread portion 34. The other side of the second connection pipe (36) is provided with a latching groove (39) for connecting the nozzle unit (50) in a rotatably engaged state. The engaging groove portion 39 forms a groove along the circumference of the second connecting pipe 36 and the nozzle engaging jaw 53 of the nozzle portion 50 is inserted into the engaging groove portion 39.

And the second connection conduit 36 is detachably coupled to the first connection conduit 32. Therefore, when the failure of the nozzle unit 50 or the maintenance of the foreign matter is caught on the inside of the second connection pipe 36, the second connection pipe 36 is disassembled by the first connection pipe 32, It is possible to save time and cost.

Shaped bearing member 40 is inserted into the engagement groove 39 and the nozzle unit 50 rotates in contact with the bearing member 40 so that friction between the nozzle unit 50 and the connection unit 30 can be reduced have.

The nozzle unit 50 is rotatably coupled to the connection unit 30 and various shapes of nozzle apparatuses can be used within the technical idea of spraying the washing water 12 to the workpiece 14 moved along the feed roller 10 have. The nozzle portion 50 according to one embodiment includes a nozzle body 52, a nozzle cover 56, and a nozzle connection portion 58.

The nozzle body 52 may be formed in various shapes within a technical concept that is rotatably installed in the connection portion 30. [ The nozzle body 52 according to one embodiment is rotatably connected to the second connection conduit 36 of the connection portion 30 and has a passage through which the washing water 12 is moved. A nozzle engaging step 53 is provided on the inner side of the nozzle body 52 facing the second connection pipe 36 along the circumferential direction and inserted into the engaging groove 39 provided with the bearing member 40, Lt; / RTI > Since the funnel-shaped nozzle sloping surface 54 is provided in the nozzle body 52 toward the slit hole 57, the resistance of the washing water 12 moving toward the slit hole 57 is reduced.

The nozzle cover 56 is located at one side (reference right side in FIG. 4) of the nozzle body 52 in which the washing water 12 is sprayed, and the washing water 12 moving along the nozzle body 52 is supplied to the workpiece 14 And a slit hole 57 for guiding the air to be sprayed in a slit shape. The nozzle cover 56 is installed to shield one side of the nozzle body 52 formed in a cylindrical shape and the slit hole 57 located at the center of the nozzle body 52 is installed in a narrow gap spreading on both sides . Since the slit hole 57 forms a rectangular hole, the washing water 12 moved through the nozzle body 52 is injected in a state of increased pressure while passing through the slit hole 57 having a narrow area.

The nozzle connecting portion 58 connects the nozzle cover 56 and the link portion 60 and may be formed in various shapes within the technical concept of rotating the nozzle cover 56 in conjunction with the movement of the link portion 60. The nozzle connection portion 58 according to an embodiment protrudes to both sides of the nozzle cover 56 and is connected to the link portion 60.

The link unit 60 may be connected to both sides of the nozzle unit 50 and may be moved in a linear direction to rotate the nozzle unit 50. Various types of link devices may be used. The link portion 60 according to one embodiment includes a first link 62 and a second link 65. [

The first link 62 is connected to the nozzle connecting portion 58 protruding to one side of the nozzle cover 56 and the side is gear connected to the driving portion 70. The second link 65 is installed in parallel with the first link 62 and is connected to the nozzle connecting portion 58 projecting to the other side of the nozzle cover 56.

The first link 62 is connected to the fastening member 67 in a state of facing the nozzle connecting portion 58 extending upward (hereinafter referred to as the reference in FIG. 5) of the nozzle cover 56. A linear gear portion 63 for gear connection to the driving gear 74 of the driving portion 70 is formed at one side of the first link 62. The first link 62 can be moved left and right by the operation of the driving unit 70, and the operator can directly move it to the left and right by hand.

The second link 65 is connected to the fastening member 67 in a state of facing the nozzle connecting portion 58 extending to the lower side of the nozzle cover 56. The second link 65 guides the rotation of the nozzle cover 56 while being moved in a direction opposite to the first link 62. [

The link portion 60 may be manually operated by an operator or may be automatically operated by the driver 70. [ The driving unit 70 may be connected to the link unit 60 so as to move the link unit 60 in a linear direction, and various types of driving units may be used. The driving unit 70 according to one embodiment includes a driving motor 72, a driving gear 74, and a motor bracket 76.

The drive gear 74 is connected to the output shaft of the drive motor 72 and is rotated by the operation of the drive motor 72. Since the driving gear 74 is engaged with the linear gear portion 63 of the first link 62, the first link 62 is moved to the left and right by the rotation of the driving gear 74. One side of the motor bracket 76 is fixed to the supply duct portion 20 and the other side of the motor bracket 76 is connected to the drive motor 72 to support the drive motor 72.

The guide portion 80 includes a guide hole 84 through which the first link 62 and the second link 65 are passed and is fixed to the supply path portion 20 so that the first link 62 and the second link 65, Various types of guide devices can be used within the scope of the invention for guiding the linear movement of the guide member 65. The guide portion 80 according to one embodiment includes a guide body 82 and a guide bracket 86.

The guide body 82 has an elongated guide hole 84 through which the first link 62 and the second link 65 pass and includes a first link 62 and a second link 65 surrounding the sides of the first link 62 and the second link 65 . One side of the guide bracket 86 is fixed to the supply tube portion 20 and the other side of the guide bracket 86 is connected to the guide body 82 to support the guide body 82.

Hereinafter, the operating state of the descaler 1 for a rolling apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, the washing water 12 supplied to the supply pipe passage portion 20 is supplied to the nozzle portion (not shown) through the first connection pipe 32 and the second connection pipe 36 of the connection portion 30 50 to the nozzle body 52. The washing water 12 moved to the slit hole 57 of the nozzle cover 56 along the nozzle inclined face 54 of the nozzle unit 50 spreads to both sides along the shape of the slit hole 57, ) To remove the scale.

6 and 7, when the installation angle of the slit hole 57 is changed, the driving unit 70 is operated to rotate the driving gear 74. When the nozzle cover 56 is rotated while the first link 62 engaged with the driving gear 74 is moved, the slit hole 57 provided in the center of the nozzle cover 56 is rotated, The angle is changed.

Also, the movement of the first link 62 can be manually performed by the operator. In this case, a separate stopper for restraining the first link 62 having been moved is separately installed.

As described above, according to the present invention, the position of the slit hole 57 can be adjusted by rotating the plurality of nozzle covers 56 while the link part 60 is moved by the operation of the driving part 70, So that the scale can be more easily removed by adjusting the spraying direction of the washing water 12.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims. will be. Also, a descaler for a rolling apparatus installed in a steelworks is taken as an example, but a scaler for a rolling apparatus according to the present invention may be used in another factory for removing a scale formed on a work subject. Accordingly, the true scope of the present invention should be determined by the following claims.

1: descaler for rolling device
10: Feed roller 12: Wash water
14: Workpiece 20:
30: connection part 32: first connection pipe
34: outer threaded portion 36: second connecting pipe
38: inner threaded portion 39:
40: Bearing member 50:
52: nozzle body 53: nozzle jaw
54: nozzle slope 56: nozzle cover
57: Slit hole 58: Nozzle connection part
60: link portion 62: first link
63: straight gear portion 65: second link
67: fastening member 70:
72: drive motor 74: drive gear
76: motor bracket 80: guide part
82: guide body 84: guide hole
86: Guide bracket

Claims (5)

A supply pipe portion for supplying the washing water;
A connection portion communicating with the inside of the supply pipe passage portion and guiding the wash water moved along the supply pipe passage portion to the outside of the supply pipe passage portion;
A nozzle unit rotatably coupled to the connection unit and spraying wash water to a workpiece moved along the transfer roller;
A link portion connected to both sides of the nozzle portion and moved in a linear direction to rotate the nozzle portion; And
And a driving unit gear-connected to the link unit to move the link unit in a linear direction.
The method according to claim 1,
A plurality of connection portions provided along the supply pipe passage portion, the first connection pipe passage being fixed to the supply pipe passage portion; And
And a second connection pipe connected to the first connection pipe on one side and to the rotatably connected nozzle on the other side.
The method according to claim 1,
Wherein the nozzle unit comprises: a nozzle body rotatably installed in the connection unit;
A nozzle cover disposed at one side of the nozzle body through which the washing water is sprayed and having a slit hole for guiding the washing water moving along the nozzle body to be sprayed into the workpiece in a slit shape; And
And a nozzle connection part connecting the nozzle cover to the link part and rotating the nozzle cover in conjunction with movement of the link part.
The method of claim 3,
The link portion may include a first link connected to the nozzle connecting portion protruded to one side of the nozzle cover and a side connected to the driving portion by gear; And
And a second link installed parallel to the first link and connected to the nozzle connection portion protruded to the other side of the nozzle cover.
5. The method of claim 4,
And a guide portion having a guide hole through which the first link and the second link are passed and which is fixed to the supply passage portion and guides the linear movement of the first link and the second link And a descaler for the rolling device.

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