KR100815725B1 - An apparatus for preventing a coil from loosening and opening a coil top portion - Google Patents

Abstract

The present invention provides an apparatus for opening the tip while preventing the coiling of the outer circumference of the coil during sample collection for analyzing the material and texture of the coil.

The outer winding part of the coil is prevented from loosening and the tip opening device (1), the lower portion of the rotary block 14 is installed to raise and lower and rotate on the upper portion of the fixing table 12 installed perpendicular to the ground adjacent to the coil 10 to be conveyed Base portion 10 having a vertical connection fixed base 16; and the front and rear, left and right upper and lower portions of the connecting bracket 34 connected to the left and right sides of the movable block 32 installed to move up and down inside the base 10; Each of the first to third link members (36) 38) and (40) connected to each other and a plurality of contact rolls (44) installed on the vertical stand (42) connected to the lower side of the link member to move in close contact with the coil outer winding part Coil outer winding loosening portion 30; And a coil tip open part having an opener 54 fixed to one side of the support roll 52 installed to be rotatably connected to one vertical stand 42a provided with the contact roll 44 to open the coil tip 14. 50); consisting of.

Therefore, according to the present invention, while opening the front end of the coil while preventing the unwinding of the coil outer portion when taking the specimen for the material and texture analysis of the coil, the work efficiency and the coil can be performed quickly and stably without manual labor. It is to improve the quality and, in particular, to prevent the accident of workers in advance.

Coils, coil specimens and specimens. Coil outer part loosening prevention device, coil tip opening device

Description

AN OUTPUT OPENING A COIL FROM LOOSENING AND OPENING A COIL TOP PORTION}             

1 is a schematic diagram illustrating a typical hot rolling process

Figure 2 is a schematic diagram showing a cutting operation for the conventional coil opening and specimen collection

Figure 3 shows a conventional hot rolled coil loosening prevention device,

(a) is a perspective view

(b) is a working state diagram

4 is a schematic plan view showing a transfer state of a coil;

Figure 5 is a front configuration diagram showing the overall configuration of the outer portion loosening prevention and tip opening device of the coil according to the present invention.

6 is an exploded perspective view showing the device of the present invention;

Figure 7 is a schematic plan view showing the adhesion roll of the present inventors device

Fig. 8 is a main view showing the tip opening of the device of the present inventors;

Figure 9 is a plan view showing the operating state of the outer ring loosening prevention and tip opening device of the present invention coil

Explanation of symbols on the main parts of the drawings                 

1 .... Outer coil loosening and tip opening device

2 .... coil 2a .... coil outer space

2b .... coil tip 10 .... base

12 .... Conveyor 14 .... Revolving Block

16 .... Base 30 .... Coil outer part loosening prevention part

32 .. Moving block 34 .... Connecting bracket

36,38,40 .... Link member 42,42a .... Vertical stand

44 .. Contact Roll 46 .... Screw Bar

50 .... Coil end opening 52 .... Support roll

54 ... Openers

The present invention relates to a coil outer portion loosening prevention and tip opening device, which prevents the coil outer portion from loosening, especially when the specimen is taken for the material and texture analysis of the thick material coil having a thickness of about 6 ~ 22 mm The opening of the tip can be easily and stably performed without manual work by the operator to improve the work efficiency and the quality of the coil, and in particular, to prevent the loosening of the outer circumference of the coil and the opening of the tip to prevent the safety accident of the operator. will be.                         

1 schematically illustrates a hot rolling process for manufacturing a general hot rolled steel sheet.

That is, as shown in Figure 1 l, the slab (SLAB) 110 supplied to the continuous casting machine of the steelmaking process is extracted by reheating the heating furnace 120 to a suitable temperature, the bar 112 in the rough mill 130 Width and thickness rolling are carried out in the form of).

Next, the final rolling is carried out in the state of the strip product 114 of the desired thickness in the finishing mill 140 to wind the strip 114 rolled from the winder 150 to the coil 100 product to coil 100. It is to produce a continuous.

Next, the coil 100 after the above operation is moved along the coil car 162 and the conveyor 160 and transferred to the inspection process, and in the inspection process, the surface inspection of the coil 100 and the work of the coil are performed. The coil is to be checked for material and texture analysis and the specimen is cut by cutting the tip.

On the other hand, the specimen collection step of such a coil 100, as shown in Figure 1, the specimen can be collected using a device called an Auto Tail Cutter (not shown) installed on the conveyor 160. However, in the case of a coil having a thickness of 6 mm or more, that is, a thick material coil 100 having a thickness of 6-22 mm, cutting of the specimen through the cutter is not possible, and in particular, because the unwinding of the outer circumference occurs severely during cutting. After cutting the specimen, there was a problem that the operator has to perform the outer circumferential alignment again.

Therefore, the opening and specimen collection of the conventional coil for solving such a problem is shown in Figure 2, the operator (P) on the conveyor 160 using the forceps 200, the tip end of the coil 100 ( Holding the 100a) is to use the method of collecting the specimen by cutting with an oxygen cutter 210 in the open state.

By the way, as shown in Figure 2, in the specimen sampling method of the coil through the oxygen cutter 210 as described above, the coil 100 using the tongs 200 until the thickness of the coil 100 to 1.2mm ~ 5mm coil 100 It is easy to align the original state with respect to the loosened part after holding the tip portion (100a) of the open side and spread outward, but it is difficult to work on the coil 100 having a thickness of 6 mm or more, In particular, since the coil 100 having a thickness of 7 to 8 mm or more is difficult to work outwardly, two workers P are forced to open using a forceps 200 or a lever (not shown). After inserting the stop bar 220 into the gap that is open, the specimen is taken using the oxygen cutter 210.

However, in the conventional coil specimen picking operation, since the operator opens the tip portion 100a of the coil 100 by hand and cuts it with the oxygen cutting machine 210, the work time is delayed, and in particular, the worker's safety accident It is likely to occur.

In addition, in the conventional work as shown in FIG. 2, a loosening phenomenon occurs easily on a substantial portion of the coil outer winding part 100b, and such loosening parts cause quality defects such as scratches scratched by friction between coil surfaces. It is also difficult to align the released outer wound portion 100b to its original state, and in particular, in the case of thick thick material coil, the operator manually aligns the unwinded outer coil portion 100b again accurately by hand. Since it is virtually impossible, the loosened part must be cut and scraped.

On the other hand, the coil outer winding portion preventing device for preventing the loosening of the coil outer winding portion 100b as shown in FIG.

That is, as shown in FIG. 3, the coils mounted on the mounting rollers 330 on the support 300 by the guide rollers 320 which are moved forward and backward as the hydraulic cylinders 310 on both sides installed on the support 300. Supporting the outer winding portion 100b of the 100 to prevent its loosening, the hydraulic cylinder 340 installed in the center of the support 300 in the inner winding portion of the coil 100 is operated to fix it.

In addition, the support 300 is moved up and down as a cylinder (300a) in the conveyor 160 to perform the lifting operation of the coil, one side of the support 300 is provided with a detection sensor 350 for detecting the coil position When the coil is stopped, the rising of the coil is stopped, and the seating roller 330 installed on the support 300 operates by a motor not shown in the drawing to prevent the coil outer winding part 100b from loosening while rotating the coil.

However, in the conventional coil outer winding loosening prevention device as described above, since the two-column conveyor 160 should be installed without interference, it should be installed only in a structure that can be supported only on both sides. There was a problem in that unwinding could not be prevented at various points along the circumferential surface of the outer winding portion 100b of the coil.

In particular, as shown in Figure 4, the inner diameter (D) of the coil 100 is limited to 762mm in the case of the coil produced in the hot rolling mill, so when the distance between the two rows of conveyor 160 is more than 762m, the coil Since the inner winding portion 100c falls down during movement on the conveyor 160 to generate a telescope, the distance S between the conveyors 160 is within 762 mm, which is the width of the coil inner winding portion 100c (actually, 610 mm), but in the conventional coil outer winding loosening device as described above, the width of the device is limited because it operates only between the conveyors 160, which is the seating roller of the coil support 300. Failure to seat correctly on 330 results in a safety accident in which the coil is conducted.

The present invention is to solve the various problems as described above, while the coil opening can be performed quickly and accurately without the manual work of the operator while preventing the unwinding of the outer portion when taking the specimen of the coil coil An object of the present invention is to provide an outer edge loosening prevention and tip opening device of a coil that improves the quality of a coil product by further improving the throughput.

In addition, another object of the present invention is to prevent the outer portion of the coil and the opening of the front end of the coil automatically without the operator, the outer portion of the coil to prevent the loosening of the operator to prevent the safety accident in advance and the end opening It is to provide a device.

As a technical configuration for achieving the above object, the present invention, the base having a vertical connection fixed base on the lower portion of the rotating block installed to move up and down on the top of the fixed vertically installed on the ground adjacent to the coil to be transported part; Wow,

The first 1-3 link members connected to the front and rear and left and right upper and lower portions of the connecting brackets connected to the left and right sides of the movable block installed to move up and down from the inside of the base, and the vertical stand connected to the lower side of the link member to be in close contact with the outer coil portion An outer coil unwinding part having a plurality of moving rolls; And,

It is fixed to one side of the support roll is installed so as to rotate to one vertical stand in which the contact roll is installed, the coil tip opening portion having an opener for opening the coil tip; the outer circumference portion of the coil configured as an opening and preventing end opening device .

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

Figure 5 is a front configuration diagram showing the overall configuration of the outer peripheral portion loosening prevention and tip opening device of the coil according to the present invention, Figure 6 is an exploded perspective view showing the device of the present invention, Figure 7 is an adhesive roll of the device of the present invention Figure 8 is a schematic plan view of the present invention, Figure 8 is a main part showing the tip open portion of the device of the present invention, Figure 9 is a plan view showing the operating state of the outer ring loosening prevention and tip opening device of the coil of the present invention.

5 and 6 show the overall configuration of the outer winding part loosening prevention and tip opening device 1 of the present inventors as a front view and an exploded perspective view, the apparatus 1 of the present invention is largely the base ( 10) and the coil outer winding loosening portion 30 and the coil wire end opening portion 50, which are described in more detail each of the components 10, 30, 50 as follows. .

First, as shown in FIGS. 5 and 6, the base portion 10 of the apparatus 1 according to the present invention is formed of a fixing stand 12 vertically installed on the ground adjacent to the coil 2 conveyed as a conveyor 4. The base 16 is fixed to the lower portion of the rotary block 14 installed so as to move up and down and rotate at the top thereof.

That is, as shown in Figure 6, the rotating block 14 of the base portion 10 is formed in an inverted U shape to the upper side of the coil (2) to be transferred to the fixing stand that both vertical portions are fixed to the ground The first cylinder 18 is fixedly connected in two rows below the upper horizontal end 12a of (12).

Next, the lower side of the support bracket 20 is fixed to the rod of the first cylinder 18, the rotating drum 22 has a central shaft 22a of the fixing groove formed in the lower center of the support bracket 20 ( The rotating drum 22 is rotatably connected to the lower portion of the support bracket 20 which is lifted and lowered as the first cylinder 18 so as to be fixed as the nut 20b through the 20a.

At this time, as shown in Figure 6, the drive gear 24a driven as a motor 24 provided on the side of the support bracket 20 is meshed with the gear portion 22b formed on the periphery of the rotary drum 22 In the rear, when the motor 24 is driven, the rotary drum 22 is integrally rotated at the bottom of the support bracket 20, and the rotary block fixedly connected to the bottom of the rotary drum 22 14) is integrally rotated, so that the rotary block 14 is installed to move up and down by the first cylinder 18 and the drive motor 24.

On the other hand, the base 16 is connected to the lower portion of the rotary block 14 and has a vertical frame 16c vertically connected between the support plates 16a and 16b at the front and rear and left and right and in a rectangular frame shape. It is formed, the support plate (16a ') is installed on the upper support plate (16a) of the base 16 is connected to the rotary block 14 is fixed as a bolt so that the rotary block 14 and the base 16 integrally It will be installed to move up and down and rotate.

Next, FIGS. 5 and 6 show the coil outer winding loosening prevention portion 30 of the apparatus 1 of the present invention. The coil outer winding loosening prevention portion 30 of the present invention is the base portion ( 1 to 3 link members 36, 38, and 40 respectively connected to the front, rear, left, and right upper and lower portions of the connection bracket 34 connected to the left and right sides of the moving block 32 installed to move up and down inside the base 16 of 10). And a plurality of adhesion rolls 44 installed on the vertical stand 42 connected to the lower side of the link member to move in close contact with the coil outer winding 12.

That is, as shown in Figure 6, the moving block 32 of the coil outer winding loosening portion 30 of the drive motor (32a) is fixed to the inner side of the lower support plate (16b) of the base (16) Although not shown as a separate reference numeral in the drawings, a screw bar 46 is provided to be rotated between the bearing block installed on the upper support plate 16a of the base 16, to drive the motor 32a. When the screw bar 46 is rotated integrally, the moving block 32 is fastened to the screw bar 46 is configured to move up and down between the vertical stand (16c) inside the base (16).                     

At this time, the connecting bracket 34 which is connected to both sides of the moving block 32 is fixed to the horizontal portion 34a and the vertical portion 34b perpendicular thereto as shown in FIG. Formed.

Accordingly, the upper end of the first and second link members 36 and 38 on the left and right sides of the vertical stand 42 on which the four contact rolls 44 of the coil outer winding release prevention part 30 are installed is connected to the connecting bracket ( It is bolted through a hole formed in the horizontal portion 34a of 34, and the upper end of the first and second link members 36 and 38 in the front and rear sides of the vertical stand 42 is perpendicular to the connecting bracket 34. Bolting connection is fixed to a hole formed in the portion 34b, and the vertical poles 42 are connected to the lower ends of the first 1-2 link members 36 and 38 so as to rotate with pins 43, respectively.

Next, as shown in FIGS. 4 to 6, an upper end of the third link member 40 is connected to a central portion of the first link member 36, and a lower end of the third link member 40. The pin is connected to the outside of the lower support plate (16b) of the base (16), the first 1-3 link member as the connecting bracket 34 is raised and lowered at both sides when the moving block 32 is raised and lowered integrally (36) (38) (40) are operated to move the coil outer wound portion 2a back and forth to the outer winding portion 2a side of the coil 2 shown in FIG. It is configured to prevent the loosening by pressing as an adhesive roll 44 installed inside the.

In addition, the contact roll 44 is rotatably mounted on one side of the vertical stand 42 so that the roll shaft 44b is inserted into and mounted on the bearing block 44a located above and below the contact rolls 44. It is provided to compress the coil outer winding part 2a while rotating.                     

Next, FIGS. 5, 6 and 8 show the coil tip open portion 50 of the device 1 of the present invention, wherein the coil tip open portion 50 of the present invention is the adhesion roll 44. The opener 54 is fixed to one side of the supporting roll 52 which is rotatably connected to the installed vertical stand 42a to open the coil tip portion 14.

That is, as shown in Figs. 6 and 8, the support roll 52 of the coil tip opening portion 50 is one of the four vertical stages 42 which are arranged in the front, rear, left and right sides with respect to the base. The connecting bracket 58 to which the second cylinder 56, which is horizontally connected and fixed to the upper and lower sides of the vertical stand 42a, is fixed to the roll shaft 52, is integrally connected to the connecting bracket 58, and the roll shaft 52 The support bracket 60 is connected to the support bracket 60 is fixed to the one vertical stand 42a, and the support roll 52 is installed to rotate when the second cylinder 56 is operated.

The opener 54 is bolted to the flat portion 52b on one side of the support roll 52, and an auxiliary roll 54a is installed on one side of the opener 54 to prevent damage to the coil surface. It is configured to prevent the coil surface from being damaged by the opener 54.

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

As shown in Figs. 5 to 9, the coil specimen is collected in a state in which the outer winding portion 2a of the coil 2, which is conveyed along the conveyor 4, is not loosened with the adhesive roll 44 without a worker's manual work. In order to open the tip portion 2b operatively to open as the opener 54, the workability is improved, and the coil outer winding loosening prevention and opening device 1 of the present invention is prevented as follows.

First, as shown in FIG. 5 and FIG. 6, the operator has the position of the stator 12 with the coil 2 to be sampled among the coils 2 transported as the conveyor 4 under the stator 12. Once, the conveyor 4 is temporarily stopped.

Next, the first cylinder 18 of the base portion 10 is lowered, and the base integrally with the rotary block 22 connected to the support bracket 20 and the rotating drum 22 under the first cylinder 18. (16) rotates by driving the drive motor 24 provided on one side of the support bracket 20, wherein the gear 24a of the drive motor 24 is engaged with the gear portion 22b of the rotary drum 22 The base 16 is rotated about the coil by the rotation of the rotary drum 22.

Therefore, as shown in Figure 6, by driving the drive motor (32a) installed in the lower support plate (16b) of the base 16 to drive the rotation of the screw bar 46, and the moving block 32 is fastened thereto The connecting bracket 34 is raised as a whole.

As a result, as shown in FIGS. 5 and 6, the first and second link members 36 and 38 connected to the connecting bracket 34 are connected to the connecting bracket 34 and ascend upwards to form the third link member. 40 is connected to the first link member 36 and the base lower support plate 16b, and the vertical table 42 pinned to the lower end of the first and second link members 36 and 38 is based on this. It narrows to the coil outer winding part 2a side.

Accordingly, as shown in FIGS. 7 and 9, the contact rolls 44 installed on the bearing block 44a on the front side of the vertical stand 42 are integrally in close contact with the coil outer portion 2a. When the rotating drum 22 rotates, the base 16, which is integrally rotated, moves along the circumferential surface of the coil to prevent the coil outer portion 2a from loosening.

Next, as shown in FIGS. 6 and 9, when the close-up rolls 44 rotate in the pore direction, and the opener 54 installed at one vertical stand 42a is positioned at the coil tip 2b, the one vertical stand is located. The second cylinder 56 installed in the 42a is advanced, and thus, the connecting bracket 58 connected to the second cylinder 56 rotates while the supporting roll 60 is supported on the vertical table 42a as the supporting bracket 60. 52 rotates the roll shaft 52a, and eventually the opener 54 bolted to the flat portion 52b of the support roll 52 rotates integrally to open the coil tip 2b during rotation of the base. Will be.

Therefore, the operator cuts the coil tip 2b properly opened with an oxygen cutter to easily collect the coil specimen.

At this time, as shown in Figure 6, the opener 54 is provided with an auxiliary guide roll 54a, it is possible to prevent damage to the coil surface by the opener 54 in advance.

Next, although not shown in the drawing, when the cutting operation of the coil tip portion 2b is completed while the outer winding portion 2a of the coil is not loosened, the moving block 32 is lifted while raising the first cylinder 18. After lowering and detaching the contact roll 44 from the coil outer winding 2b by the reverse movement of the link members 36 and 38, the operator restarts the conveyor 4 to perform the manufacturing work of the coil.                     

As a result, since the device 1 of the present invention is a device structure that is installed on the fixing table 12 on the coil 2 and rotates downward while being lowered, the coil outer winding 2a is always quickly and accurately regardless of the size of the coil. By opening the coil tip portion (2b) in close contact with the fixed state so that the conventional operator can take the coil specimen more conveniently and stably without having to fix it with tongs.

As described above, according to the present invention, the outer circumference of the coil is prevented from opening and the opening of the distal end of the coil can be prevented from unwinding of the outer circumference of the coil while collecting the coil specimen. By further improving the coil processing efficiency, it provides the effect of improving the quality of coil products.

Moreover, since the operation of preventing the loosening of the outer portion of the coil and the opening of the tip portion is automatically performed without a worker, it is possible to provide an excellent effect of preventing the safety accident of the worker.

Particularly, even in the case of thick material, that is, thick thick material coil having a thickness of 6-22 mm, the coil outer portion can be easily prevented from loosening, and the opening operation of the front end of the specimen is also smoothly performed, so that the coil response is high. .

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 (4)

A base portion 10 having a vertically connected base 16 fixed to a lower portion of the rotating block 14 installed to move up and down and rotate on an upper portion of the fixed support 12 installed perpendicular to the ground adjacent to the coil 10 to be transferred; Wow, First to third link members 36, 38 and 40 respectively connected to the front and rear and left and right upper and lower portions of the connection bracket 34 connected to the left and right sides of the moving block 32 installed to move up and down inside the base 10. A coil outer winding release prevention part 30 provided on a vertical stand 42 connected to the lower side of the link member and having a plurality of adhesion rolls 44 moving in close contact with the coil outer winding 12; And, Coil tip opening portion 50 having an opener 54 which is fixed to one side of the support roll 52 installed to be connected to the vertical stand 42a on which the contact roll 44 is installed to open the coil tip 14. Outer part loosening prevention and tip opening device of the coil, characterized in that configured as The support block of claim 1, wherein the rotation block 14 of the base part 10 is connected to a lower portion of the first cylinder 18 vertically installed in two rows below the upper horizontal end 12a of the holder 12. It is connected to the lower part of the center shaft 22a of the rotating drum 22 installed to rotate below the bracket 20, and installed to move up and down when driving the cylinder 18. A driving gear 24a driven as a motor 24 provided on the side of the support bracket 20 is engaged with the gear portion 22b formed at the periphery of the rotating drum 22 to rotate the rotating drum 22 when the motor is driven. The rotary block 14 is configured to rotate integrally with The base 16 is formed in a rectangular frame shape with a plurality of vertical bars 16c connected to the lower part of the rotary block 14 and vertically connected between the support plates 16a and 16b at the front and rear and left and right sides. Outer ring loosening prevention and tip opening device of the coil The movable block 32 of the coil outer winding release prevention part 30 is rotated on the upper support plate 16a as a drive motor 32a provided on the lower support plate 16b of the base 16. It is fastened to the screw bar 46 fastened so as to move up and down along the base 16 when the motor is driven, The first link member 36 and the second link member 38 of the first to third link members 36, 38, and 40 are connected to both sides of the movable block 32 to be fixed to the connection bracket 34. The third link member 40 is connected between the first link member 36 and the base lower support plate 16b, The vertical stand 42 in which the contact roll 44 is installed is pin-connected to the lower portions of the first and second link members 36 and 38 so that the vertical roll adheres to the vertical object when the movable block 32 moves up and down. ) Is the outer winding portion of the coil, characterized in that it is configured to be in close contact with the outer winding portion (10a) and the tip opening device The support bracket 52 of claim 1, wherein the support roll 52 of the coil tip opening 50 is connected to a connecting bracket 58 to which a second cylinder 56, which is horizontally connected and fixed to the upper and lower sides of the one vertical stand 42a, is connected. Is fixed to the roll shaft 52, the support bracket 60 is integrally connected to the connecting bracket 58 and connected to the roll shaft 52 is fixed to the one vertical stand (42a) to operate the second cylinder (56) When the support roll 52 is configured to rotate, The opener 54 is bolted to the flat portion 52b of one side of the support roll 52, One side of the opener 54, the outer roll loosening prevention and tip opening device of the coil, characterized in that the auxiliary roll (54a) for preventing damage to the coil surface is installed

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