KR101982988B1 - Slitting apparatus of steel sheet coil - Google Patents

Abstract

The present invention relates to a slitting apparatus of a steel sheet coil, which winds a steel sheet. According to the present invention, the slitting apparatus of the steel sheet coil comprises: a supply roller on which the steel sheet coil, which is a subject to be slit, is mounted; a slitter installed on one side of the supply roller to continuously slit the steel sheet coil into a plurality of unit steel sheet coils; and a winding roller installed on a main frame on one side of the slitter to wind the plurality of unit steel sheet coils which are slit. The supply roller comprises: a rotary shaft unit into which the steel sheet coil is inserted; a plurality of external diameter extension units separately installed on the outer circumferential surface of the rotary shaft unit to be placed along the circumference of the rotary shaft unit by being distanced from each other, to be extended in a longitudinal direction of the rotary shaft unit, to be placed in between the rotary shaft unit and the steel sheet coil, and to extend an external diameter of the rotary shaft unit by corresponding to an internal diameter of the steel sheet coil; an engagement unit which engages the external diameter extension units with the rotary shaft unit; and a release prevention unit which prevents the wound steel sheet coil from being released. The present invention aims to provide the slitting apparatus for the steel sheet coil, which is able to prevent the steel sheet coil from being suddenly released.

Description

TECHNICAL FIELD [0001] The present invention relates to a slitting apparatus for steel sheet coils,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for winding a steel sheet, and more particularly, to a slitting apparatus for a steel sheet coil in which a steel sheet coil is slit and wound by a unit steel sheet coil.

The steel sheet coil manufactured in a steel mill is manufactured by hot rolling or cold rolling to a predetermined thickness, plated according to the characteristics of the product, cut by a cutting machine, wound to have a certain diameter, packed and shipped.

Since the steel plate coil thus shipped is manufactured with a comparatively large width, the purchaser supplied with the steel plate coil is slitted into unit steel plate coils having a certain width so as to be suitable for a product to produce a relatively large steel plate coil, The steel plates are respectively wound on the winding portion of the winding roller and then repackaged. The following description will be made with reference to the drawings.

FIG. 1 is a side view schematically showing a conventional slitting apparatus for a steel coil, and FIG. 2 is a plan view schematically showing a conventional slitting apparatus for a steel coil.

1 and 2, a description will be given of a state in which the steel coil 2 is slit and wound by a plurality of strands of the unit steel coil 3 through the slitting device 1 for the steel coil.

First, a large-width steel coil 2 is placed on the feed roller 10, and one end of the steel coil 2 passes through the slitter 20. The steel plate coil 2 supplied to the slitter 20 is slit into a plurality of strands of unit steel plate coils 3 having a relatively small width while passing through the steel plate coil 2. Then, the slits of the unit steel plates 3 are wound on the winding roller 30.

Here, the take-up roller 30 is provided with a plurality of winding portions 30A so that the plurality of sliced unit steel plate coils 3 are spaced apart from each other by a predetermined distance and wound. Therefore, the plurality of unit steel plate coils 3 slitted while passing through the slitter 20 are wound around the corresponding winding portions 30A of the winding roller 30, respectively.

The unit steel plate coils 3 thus slit and wound are packed so as to protect the outside without being unwound while being wrapped, and the packaged unit steel plate coils 3 are transported to a necessary place after being loaded do.

The steel plate coil 2 is placed on the supply roller 10 in a state of being retained by a restraining member (see FIG. 5) in order to prevent the coil from loosening during storage and movement, and then the restraint member is removed and supplied to the slitter 20 .

At this time, in the case of the steel plate coil 2 made of a steel plate with high elasticity, the steel plate coil 2 can be unexpectedly released according to the elasticity of the steel plate 2 constituting the steel plate coil 2 when the restraint member is removed. It is a situation.

Korea Patent No. 10-0808658 (Feb. 22, 2008) " Slitting Device for Coil Coil "

SUMMARY OF THE INVENTION It is an object of the present invention to provide a slitting apparatus for a steel plate coil capable of preventing abrupt release of a steel plate coil when removing a restraining member for pulling the steel plate coil 2 into the slitter 20. [

According to one aspect of the present invention, there is provided a slitting apparatus for a steel strip coil, comprising: a supply roller on which a steel strip coil to be slit is mounted; A slider installed at one side of the feed roller and continuously slitting the steel coil into a plurality of unit steel coil; And a take-up roller which is installed on a body of the slitter and on which a plurality of slits of the unit steel plate coils are wound, wherein the feed roller includes: a rotating shaft portion in which the steel plate coil is inserted; And a plurality of coils disposed on the outer circumferential surface of the rotary shaft and spaced apart from each other along the circumference of the rotary shaft to extend in the longitudinal direction of the rotary shaft and disposed between the rotary shaft and the steel coil, A plurality of outer diameter expanding portions extending corresponding to inner diameters of the steel coil; A coupling portion coupling the outer diameter enlarging portion to the rotary shaft portion; And a loosening preventing portion for preventing loosening of the coiled coil.

In this case, the unlocking portion may include: a first guide member that closely contacts the outer surface of the winding coil of the steel coil; A second guide member for guiding the leading end of the steel sheet drawn from the steel coil to be drawn into the slitter; And a base fixing member for fixing the first guide member.

At this time, the first guide member has a bar shape, one end of which is rotatably coupled to the base fixing member, the other end of which is provided with a first contact roller, The outer surface of the winding can be brought into close contact with each other.

On the other hand, the second guide member is rod-shaped and has one end rotatably coupled to a shaft provided with the first contact roller and a second contact roller provided at the other end, So that the leading end portion of the steel sheet drawn from the steel coil can be guided into the slitter.

Further, the second contact roller can contact the tip end portion of the steel plate at the winding outer surface side of the steel plate coil.

The second contact roller may include an electromagnet coil portion having magnetism by application of a current, and when the leading end portion of the steel sheet drawn out from the steel coil is inserted into the slitter, the leading end portion may be fixed by magnetic force have.

The rolling mill may further comprise a work roll disposed vertically and parallelly to apply pressure to the upper and lower surfaces of the steel plate coil at the same time, wherein the rolling mill is provided between the feed roller and the slitter, ; And a plurality of support rolls which are driven by a hydraulic cylinder so as to suppress bending deformation of the work rolls and contact the work rolls.

On the other hand, a thermal imaging camera for measuring a surface temperature of a steel coil passed through the work roll; And a control unit for controlling the support roll based on the temperature distribution of the measured steel coil.

At this time, the control unit may determine that bending deformation has occurred in the work roll at a portion where the temperature of the steel coil is in contact with the measured portion, and control the support roll in contact with the portion.

The cooling apparatus according to claim 1, further comprising a steel plate cooling section for uniformly adjusting the temperature of the steel plate coil supplied to the work roll, wherein the steel plate cooling section includes a cooling oil reservoir for receiving cooling oil, Some sections may be fed in a folded form to pass through the locked state.

According to the slitting apparatus for a steel sheet coil according to the embodiment of the present invention,

First, since the unlocking portion closely contacts the winding outer surface of the steel coil, it is possible to prevent the steel coil from being suddenly released due to elasticity when the leading end portion of the steel coil is drawn out.

Second, since the outer diameter of the roller can be changed corresponding to the inner diameter of the steel coil, it is possible to stably support the steel coil having various sizes of inner diameters.

Third, the second guide member is in the form of a rod, one end of which is rotatably coupled to a shaft provided with the first contact roller, and the other end of which is provided with a second contact roller, The elasticity of the steel sheet can be effectively controlled when the leading end portion is drawn into the slitter.

Fourth, since the second contact roller includes an electromagnet coil portion having magnetism by application of a current, the leading end portion of the steel sheet drawn out of the steel coil can be fixed to the slitter by magnetic force. Therefore, even in the case of a steel plate coil made of a steel plate with low elasticity, the leading end portion of the steel plate coil can be effectively guided.

1 is a side view schematically showing a conventional slitting apparatus for a steel coil.
2 is a plan view schematically showing a conventional slitting apparatus for a steel coil.
3 is a side view schematically showing a slitting apparatus for a steel sheet coil according to the present invention.
4 is a photograph of a steel plate coil to which a restraining member is coupled.
5 is a photograph of the feed roller according to the present invention.
6 is a perspective view for explaining a first operation for pulling out a steel plate coil equipped with a supply roller of the present invention.
7 is a perspective view for explaining a second operation for pulling out the steel sheet coil equipped with the supply roller of the present invention.
8 is a perspective view for explaining a third operation for pulling out the steel plate coil equipped with the supply roller of the present invention.
9 is a cross-sectional view of a rolling mill according to the present invention.
10 is a plan view of a rolling mill according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 3 is a side view schematically showing a slitting apparatus for a steel sheet coil according to the present invention, FIG. 4 is a photograph of a steel sheet coil coupled with a restraining member, and FIG. 5 is a photograph of a supply roller according to the present invention.

3 to 5, a slitting apparatus 200 for a steel plate coil according to the present invention includes a feeding roller 100, a slitter 20, a winding roller 30, a rolling mill 300, a steel plate cooling unit 400 An infrared camera 500, and a control unit (not shown).

The feed roller 100 is mounted with the steel sheet coil 2 to be slit.

The slitter 20 is installed on one side of the feed roller 100 to continuously slit the steel coil 2 with a plurality of unit steel coil 3.

The winding roller 30 is mounted on the body of the slitter 20 at one side, and a plurality of unit steel plate coils 30 slit are wound.

Here, the slitter 20 and the winding roller 30 have the same configuration as the slitting device 1 for a steel plate coil of the related art described above, and thus a detailed description thereof will be omitted.

Here, the steel plate coil 2 is made of a cylindrical shape in which a steel plate is rounded for ease of manufacturing and delivery, and may have various diameters such as different diameters depending on the manufacture of the supplier.

As shown in FIG. 4, the steel plate coil 2 is retained in a state of being retained by a restraining member in order to prevent the steel plate from loosening.

The supply roller 100 includes a rotary shaft portion 120, an outer diameter enlarging portion 130, a coupling portion 140, and a release preventing portion 160.

The rotating shaft portion 120 is a portion where the steel plate coil 20 is fitted.

Specifically, the rotary shaft portion 120 is configured to support the steel plate coil 2 by sandwiching the steel plate coil 2, and may be made of a material having high rigidity, for example, stainless steel, an alloy, or a combination thereof.

The rotating shaft portion 120 is connected to a motor (not shown) or the like by a rotation shaft (not shown) and rotates in conjunction with the rotation number of the motor, so that the steel coil 2 can be supplied to the slitter 20 In the opposite direction to the direction in which the steel coil 2 is wound.

A plurality of outer diameter enlarging portions 130 are provided on the outer circumferential surface of the rotary shaft portion 120 so as to be separable from each other and are spaced from each other along the circumference of the rotary shaft portion 120, And is provided between the rotary shaft portion 120 and the steel plate coil so that the outer diameter of the rotary shaft portion 120 is expanded corresponding to the inner diameter of the steel plate coil 2.

The engaging portion 140 engages the outer diameter enlarging portion 130 with the rotating shaft portion 120. Specifically, the engaging portion 140 may include a screw and a bolt to prevent the outer diameter enlarging portion 130 from being detached.

The release preventing portion 160 prevents the coiled coil 2 from unwinding. Referring to FIG. 5, the release preventing portion 160 includes a first guide member 161, a second guide member 165, and a base fixing member 169.

The first guide member (161) closely contacts the outer surface of the wound coil of the steel plate coil (2).

The second guide member 165 guides the leading end portion S of the steel sheet drawn from the steel coil 2 into the slitter 20. [

The base fixing member 169 and the first guide member 161 are fixed.

The first guide member 161 has a rod shape and one end portion 161a of the first guide member 161 is rotatably coupled to the base fixing member 169 and the other end portion 161b of the first guide member 161 is provided with a first contact roller 162.

When the first guide member 161 comes into contact with the winding surface of the steel coil 2, the first contact roller 162 closely contacts the winding outer surface of the steel coil 2.

The second guide member 165 is rod-shaped, and one end 165a of the second guide member 165 is rotatably coupled to a shaft provided with the first contact roller 162.

A second contact roller 166 is provided at the other end 165b of the second guide member 165. [

The second contact roller 166 guides the leading end portion S of the steel sheet drawn from the steel coil 2 into the slitter 20. [

At this time, the second contact roller 166 contacts the leading end portion S of the steel plate at the winding outer surface side of the steel plate coil 2 as shown in FIG. 7 so that the leading end portion S is drawn into the slitter 20 Guide.

The second contact roller 166 is provided with an electromagnet coil part (not shown) having magnetism by the application of a current, so that the tip part S of the steel sheet drawn out of the steel coil 2 enters the slitter 20 The tip end portion S is fixed by magnetic force.

FIG. 6 is a perspective view for explaining a first operation for drawing a steel coil loaded with a supply roller of the present invention, and FIG. 7 is a view for explaining a second operation for drawing a steel coil loaded with the supply roller of the present invention And FIG. 8 is a perspective view for explaining a third operation for pulling out the steel sheet coil equipped with the supply roller of the present invention.

The process of drawing the steel plate coil 2 from the supply roller 100 will be described with reference to FIGS. 6 to 8. FIG.

The steel plate coil 2 is formed of a cylindrical shape in which the steel plate is rounded for ease of manufacturing and delivery, and is fastened with a restraining member as shown in Fig. 4 to prevent loosening.

- first operation -

The steel plate coil 2 is fitted to the rotary shaft portion 120 in a state where the restraint member is engaged. When the steel plate coil 2 is inserted, the first guide member 161 constituting the unlocking portion 160 closely contacts the outer surface of the coiled coil 2. Specifically, the first contact roller 162 provided on the first guide member 161 closely contacts the outer surface of the reel, and removes the restraint member in a state in which it is in close contact.

- second operation -

The second guide member 165 is rotated (counterclockwise as viewed) and the second contact roller 166 provided at the other end 165b of the second guide member 165 is pressed against the steel plate coil 2 Is brought into close contact with the outer surface of the winding. The steel plate coil 2 is in close contact at two points of the first contact roller 162 and the second contact roller 166. At this point in time, And performs drawing work in a direction opposite to the direction in which the steel plate coil 2 is wound so that it can be supplied to the slitter 20.

- Third operation -

The tip end portion S of the steel sheet from which the second contact roller 166 is pulled out of the steel plate coil 2 is raised to the slitter 20 by raising the second guide member 165 (clockwise rotation as shown) Guide it in.

As shown in the figure, the second contact roller 166 contacts the leading end portion S of the steel plate at the winding outer surface side of the steel plate coil 2.

In the case of a coil made of a highly elastic steel plate, it is possible to guide the leading end portion S of the steel plate by simply raising the second guide member 165 due to the elasticity of the steel plate to be stretched.

In the case of a coil made of a low-elasticity steel sheet, a current is applied to a portion of the electromagnet coil provided on the second contact roller 166, so that the leading end portion S of the steel sheet is inserted into the slit 20 Is fixed by a magnetic force and guided.

The rolling mill 300 is disposed between the feed roller 100 and the slitter 20 and rolls the supplied steel sheet coil 2.

FIG. 9 is a cross-sectional view of a rolling mill according to the present invention, and FIG. 10 is a plan view of a rolling mill according to the present invention.

9 and 10, the rolling mill 300 includes a work roll 310, an intermediate roll 320, a backup roll 330, support rolls 340a and 340b, roll moving bodies 341a and 341b, And includes cylinders 342a and 342b.

The work rolls 310 are vertically arranged in parallel to apply pressure to the upper and lower surfaces of the steel plate coil 2 at the same time. The backup roll 330 applies pressure through the intermediate roll 320 as a weight roll applying pressure to the work roll 310.

At this time, as the steel plate coil 2 advances, a horizontal load is applied to the work roll 310 to cause bending deformation in the work roll 310.

The plurality of support rolls 340a and 340b are driven by hydraulic cylinders 342a and 342b to abut against the work roll 310 to suppress bending deformation of the work roll 310. [

The support rolls 340a and 340b are moved forward and backward by the roll movable bodies 341a and 341b and the hydraulic cylinders 342a and 342b provided on both sides in the rolling direction of the work roll 310, The hydraulic cylinders 342a and 342b are operated according to the deformed positions of the support rolls 340a and 340b to push the work roll 310 to suppress the horizontal bending deformation.

That is, the support rolls 340a and 340b are driven by the hydraulic cylinders 342a and 342b to contact the work roll 310 so as to suppress the bending deformation of the work roll 310.

The work roll 310, the intermediate roll 320, the backup roll 330, the support rolls 340a and 340b, the roll movable bodies 341a and 341b and the hydraulic cylinders 342a and 342b are arranged in a vertically symmetrical structure , And only those arranged on the upper surface in Fig. 9 are shown for the sake of brevity.

The bending deformation of the work roll 310 may be measured by a sensor (not shown), but in the present invention, the bending deformation of the work roll 310 may be determined based on the temperature change of the steel coil 2 through the thermal imaging camera 500, Detects whether or not it is deformed.

The steel plate coil 2 is compressed while passing through the work roll 310 in the rolling process. The temperature of the steel coil 2 is increased by compression. When uniform pressure is applied to the steel strip coil 2 by the work roll 310, the temperature at the central portion to the edge portion of the steel strip coil 2 uniformly rises. However, when bending deformation occurs in the work roll 310, The pressure is concentrated on a specific portion of the steel plate coil 2, so that further compression occurs in the specified portion, and the temperature of the steel coil 2 thus rolled becomes uneven.

The thermal imaging camera 500 measures the surface temperature of the steel coil 2 passing through the work roll 310 in the form of an image.

The control unit (not shown) controls the support rolls 340a and 340b based on the measured temperature distribution of the steel coil 2.

Specifically, the control unit analyzes the measured image of the steel coil 2, determines that bending deformation has occurred in the work roll at a portion where the temperature is high, and controls the support roll in contact with the portion.

1 and 340b-1 in the steel plate coil 2, if the temperatures of the portions past the portions shown by 340a-1 and 340b- 1). That is, the support rolls 340a-1 and 340b-1 are driven until the surface temperature of the steel coil 2 measured by the thermal imaging camera 500 becomes uniform to prevent bending deformation of the work roll 310 .

At this time, instead of driving only the support rolls 340a-1 and 340b-1, the support rolls (for example, 340a-2 and 340b-2) Can be prevented.

The apparatus may further include a steel plate cooling unit 400 for uniformly adjusting the temperature of the steel plate coil 2 supplied to the work roll 310 according to the operator.

The steel plate coil 2 includes a cooling water tank 410 and a cooling water tank 410. The cooling coil water tank 410 includes a cooling water tank 410 for receiving cooling oil O, . The temperature of the steel plate coil 2 supplied to the work roll 310 can be uniformly adjusted since the steel plate coil 2 is completely immersed in the cooling water tank 410. [

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

1: conventional slitting device for steel coil 2: steel coil
3: Unit steel coil 10: Feed roller
20: Slitter 30: Winding roller
100: feed roller 300: rolling mill
400: steel plate cooling section 500: thermal imaging camera

Claims (5)

A supply roller on which a steel coil to be slitted is mounted;
A slider installed at one side of the feed roller and continuously slitting the steel coil into a plurality of unit steel coil; And
And a take-up roller installed on a main body of one side of the slit and on which a plurality of slitted unit steel coil coils are wound,
The feed roller
A rotating shaft portion into which the steel coil is fitted;
And a plurality of coils disposed on the outer circumferential surface of the rotary shaft and spaced apart from each other along the circumference of the rotary shaft to extend in the longitudinal direction of the rotary shaft and disposed between the rotary shaft and the steel coil, A plurality of outer diameter expanding portions extending corresponding to inner diameters of the steel coil;
A coupling portion coupling the outer diameter enlarging portion to the rotary shaft portion; And
And a loosening preventing portion for preventing loosening of the wound steel coil,
Further comprising a rolling mill disposed between the feed roller and the slitter for rolling the steel sheet coils fed,
The rolling mill,
A work roll provided vertically in parallel so as to simultaneously apply pressure to the upper and lower surfaces of the steel coil;
A plurality of support rolls which are driven by a hydraulic cylinder so as to suppress bending deformation of the work rolls and contact the work rolls;
An infrared camera for measuring the surface temperature of the steel coil passed through the work roll in an image form; And
And a control unit for controlling the support roll based on the temperature distribution of the measured steel coil,
Wherein,
It is judged that a bending deformation has occurred in the work roll at a portion where the temperature of the steel coil coincides with the measured portion and the support roll contacting the portion is controlled,
Further comprising a steel plate cooling section for uniformly adjusting the temperature of the steel plate coil supplied to the work roll,
The steel plate cooling unit includes:
And a cooling water tank for receiving cooling oil, wherein the steel coil is fed in a folded state in a part of a section so as to pass through the cooling water tank in a locked state.
delete delete delete delete

Images