KR20110112050A - Roller typed apparatus for preventing damage of coil edge - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for preventing damage to a coil edge due to a collision between a coil and a crane lift. In an apparatus for preventing damage to a coil edge due to a collision between a coil and a crane lift, a crane above the lift head 4 is provided. A main side frame 12 installed at both sides of the lift 3 and a main hole 32 formed between the main side frame 12 and receivable therein are formed, and a sliding bracket in the main hole 32. The main pushing housing (35), which is attached thereto (27), and one side is coupled to both sides of the main pushing housing (35) and the other side includes a housing shaft (47) penetrated and fixed to the main side frame (12) A fixing part, a pushing housing 38 having a portion coupled to the main hole 32 of the main pushing housing 35 and having pushing holes 33a and 33b therein, and the pushing housing 38 It includes a limit cover 31 coupled with the outer surface A main push shaft 22 that is movable through the limiter cover 31 and into the pushing holes 33a and 33b, and a front end of the main push shaft 22 and coupled to the main push shaft 22; A secondary push shaft 24 having a smaller diameter and movable into the main hole 32, an elastic spring 34 fitted to the auxiliary push shaft 24, and connected to one side of the auxiliary push shaft 24 A sensing unit including a sensor limiter 25 and a sensor 26 coupled to one side of the sliding bracket 27 and connected to an expand wire 51, and the main push shaft 22 and the block bracket 19. The roller characterized in that it comprises a roller block provided with a bearing block (17) connected through, a roller shaft (16) connected to the bearing block (17), and a roller (15) installed on the roller shaft (16). Type coil edge breakage prevention device.

Description

ROLLER TYPED APPARATUS FOR PREVENTING DAMAGE OF COIL EDGE}

The present invention relates to a device for preventing the damage of the coil edge due to the collision of the coil and the crane lift, and more particularly, the telescope and the crane lift which is the side projection of the coil during the lifting, moving and unwinding of the coil by the crane and It relates to a roller-type coil edge breakage prevention device for preventing damage to the coil edge due to the collision.

When winding the strip in the form of a coil in the rolling process, a telescope is generated in which edge portions protrude from the inner and outer diameters of the coil.

When the coil is to be lifted, moved, and lowered by using a crane, as shown in FIG. 1, the collision between the crane lift 3 and the portion in which the telescopes 6 and 7 of the outer and inner diameters of the coil are generated is generated. The problem is that the edge of the coil is damaged.

In order to solve such a problem, conventionally, as shown in Fig. 2 (b), a rubber plate is attached to the edge of the coil, or as shown in Fig. 2 (c) and (d), the edge protector ( An edge protector was installed on the crane lift 3 to carry out the coil transfer.However, when the coil transfer operation was carried out, the crane lift 3 was moved to the coil edge due to the up, down and lateral movements of the crane 2 by the crane wire 1. Contact with the telescope was not sufficient to prevent coil edge breakage.

In addition, there is a technique for preventing the breakage of the coil edge by maintaining a constant distance between the telescope of the coil edge and the crane lift (3) by using a laser rangefinder, but the inner and outer diameter telescope of the coil is very Because of the variety, the distance measurement malfunctioned, causing frequent breaks in the coil edges.

Therefore, the scrap is increased due to the edge breakage of the coil inner and outer diameters, resulting in cost loss, and the coils having the broken edges pass through the line process, causing damage to various rolls, thereby increasing the roll replacement cycle. The interruption of the work line also caused a significant drop in productivity.

The present invention has been made to solve the above-described problems, by preventing the inner and outer diameter edge of the coil breakage, to reduce the amount of scrap generated to prevent cost loss, to prevent damage caused by various rolls in the line process and to maintain the work line It is an object of the present invention to provide a roller-type coil edge breakage prevention device capable of improving productivity by being maintained in the same manner.

The present invention is a device for preventing the breakage of the coil edge due to the collision of the coil and the crane lift, the device for preventing the breakage of the coil edge due to the collision of the coil and the crane lift, the crane lift above the lift head (4) (3) a main side frame 12 installed at both sides of the inside, and a main hole 32 formed between the main side frame 12 and receivable therein, and having a sliding bracket in the main hole 32; 27 is provided with a main pushing housing 35 and one side is coupled to both sides of the main pushing housing 35 and the other side includes a housing shaft 47 penetrated and fixed to the main side frame 12. A part of the main housing 32 of the main pushing housing 35 and the pushing housing 38 and the pushing housing 33a and 33b formed therein and the pushing housing 38 are formed. Shock absorber including limit cover 31 coupled to the side And a main push shaft 22 which is movable through the limiter cover 31 and moves into the pushing holes 33a and 33b, and is coupled to the front end of the main push shaft 22 and is larger than the main push shaft 22. A sensor connected to the auxiliary push shaft 24 having a small diameter and movable into the main hole 32, an elastic spring 34 fitted to the auxiliary push shaft 24, and one side of the auxiliary push shaft 24. A sensing unit including a limiter stage 25, a sensor 26 coupled to one side of the sliding bracket 27 and connected to an expand wire 51, and the main push shaft 22 and the block bracket 19. Roller type, characterized in that it comprises a roller block provided with a bearing block 17 connected to the through, the roller shaft 16 connected to the bearing block 17, and the roller 15 installed on the roller shaft 16 Provides a coil edge breakage prevention device.

At this time, the motor frame 14 coupled to the main side frame 12 on one side, the motor 52 connected to the motor frame 14, the motor shaft 53 connected to the motor 52, and The gear screw thread b 55 connected to the motor shaft 53 and the gear bracket 54 and the gear screw thread a 49 connected to the gear frame 48 coupled to the main pushing housing 35 are provided. It is also characterized by the additional drive unit.

In addition, the fixing portion is coupled to the other side of the sliding bracket 27, the spring shaft B (29) connected to the spring shaft limit 30 through the main push housing 35, and fitted to the spring shaft B (29) It is also characterized by further including the spring B (28).

Further, the shock absorbing portion is formed through the spring shaft A (40a, 40b) and the spring shaft A (40a, 42b) formed through the upper and lower sides of the pushing housing 38, respectively And upper and lower side brackets 36 and 37 on which spring shaft heads 39a and 39b coupled to one end of the spring shafts A 40a and 40b and the other ends of the spring shafts A 40a and 40b are fixed. It is also characterized by including more).

According to the present invention, by preventing the inner and outer diameter edge of the coil to be damaged by conveying the coil by the crane, the amount of scrap generated is reduced to prevent cost loss and damage caused by various rolls in the line process, and continuous work line Maintaining continuously has the effect of greatly improving productivity.

1 is a schematic view showing a state in which the edge of the coil is broken in contact with the crane lift during the conventional coil transfer.
Figure 2 is a photograph showing the edge failure state of the coil by a conventional crane lift, (a) is a photograph showing the coil edge damage state by the crane lift, (b) is a photograph of the rubber plate attached to the edge of the coil , (c) is a photograph of the crane with the edge protector, (d) is a detailed photo of the edge protector attached to the crane lift.
Figure 3 is a side cross-sectional view of the apparatus according to the invention attached to a crane lift.
4 is a detailed side cross-sectional view of the portion B of FIG.
5 is a plan view cut away in the direction of the arrow of the portion A of FIG.
Figure 6 is a side cross-sectional view showing the operation of the device according to the present invention, (a) is a side cross-sectional view showing the position of the groove before the device of the present invention is operated, (b) is a crane lift is closed the device of the present invention Side cross-sectional view showing a state of operation, (c) is a side cross-sectional view showing a state in which the device of the present invention rotates 90 degrees after the closing operation of the crane lift is stopped.
7 is an overall schematic view showing a state in which the present invention device is mounted on a crane lift.

EMBODIMENT OF THE INVENTION Hereinafter, with reference to drawings, the structure of this invention is demonstrated in detail.

The roller-type coil edge breakage preventing device according to the present invention is a device for preventing the breakage of the coil edge due to the collision of the coil 5 and the crane lift 3, for this purpose lift head 4 as shown in FIG. It is installed inside the upper part of the crane lift (3), this installation position is approximately 400mm from the lift head 4 to the upper side, the portion is usually the telescope of the coil inner and outer diameter does not occur, Corresponds to the position to minimize the coil's contact with the telescope when hoisting, moving and unloading the coil.

The configuration of the present invention largely includes a fixing portion for fixing the apparatus 99 of the present invention to the crane lift 3, and the pushing housing 38 of the pushing head 38 during the close operation of the lift head 4 of the main pushing housing 35. A shock absorbing part that buffers the inside, and a sensing part that the main and auxiliary push shafts 22 and 24 move through the main hole 32 and the pushing holes 33a and 33b and contact the sensor 26 to detect a signal. And a drive unit for rotating the device 99 of the present invention by engaging the gear screw mounts a, b (49, 55) by a roller unit and a motor in contact with the crane lift (3).

That is, as shown in Figures 3 and 5, the fixing part of the apparatus 99 of the present invention is the main side frame 12 on both sides of the inside of the crane lift (3) portion located above the lift head (4) of the crane It is installed, the main side frame 12 is connected to the crane lift (3) by a bolt (13).

In addition, a main pushing housing 35 is formed between the main side frame 12 on both sides, and a main hole 32 which is a space accommodating the pushing housing 38 inside the main pushing housing 35. Is formed, and a rectangular sliding bracket 27 is assembled and installed at a portion of the main hole 32, and a housing shaft 47 is provided between the main pushing housing 35 and the main side frame 12. It is coupled to support the device 99 of the present invention, the housing shaft 47 is coupled to the shaft bearing block 56 connected to the main side frame 12 through the main side frame 12, the housing shaft 47 ) Is fixed to the outer shaft bearing block cover (57).

A plurality of spring shafts B 29 are coupled to the inner side of the sliding bracket 27, and opposite sides of the spring shafts B 29 penetrate through the main pushing housing 35 and the spring shaft limits 30. The spring B 28 is fitted into each of the spring shafts B 29.

4 and 5, the cushioning portion of the device 99 of the present invention is coupled to the pushing housing 38 of the rectangular shape to be slidable to the main hole 32 of the main pushing housing 35. In the pushing housing 38, rectangular pushing holes 33a and 33b having different sizes are formed. That is, the outer pushing hole 33a is larger in size than the inner pushing hole 33b.

In addition, a limit cover 31 is coupled to an outer surface of the pushing housing 38, and a main limiter square ring 23 is fixedly connected to an inner surface of the limit cover 31.

In addition, spring shafts A (40a, 40b) are formed through both sides of the upper and lower sides of the pushing housing 38, one end of the spring shaft A (40a, 40b), the spring shaft head (39a, 39b) The other end of the spring shaft A (40a, 40b) is fixed by the upper and lower brackets (36, 37) and then coupled with the spring shaft limit (41a, 41b), the spring shaft A (40a) The springs A 42a and 42b are fitted in the 40b.

As shown in FIGS. 4 and 5, the sensing unit of the apparatus 99 is movable through the limiter cover 31 and the main limiter square ring 23 to be moved into the pushing holes 33a and 33b. A combined main push shaft 22 is installed, and the main push shaft 22 has a smaller diameter than the main push shaft 22 to be movable in the main hole 32 inside the main pushing housing 35. Auxiliary push shaft 24 is coupled.

In addition, an elastic spring 34 is fitted to the auxiliary push shaft 24, a sensor limiter 25 is installed at the front end (main hole direction) of the auxiliary push shaft 24, and the sliding bracket 27 is provided. The sensor 26 connected to the expand electric wire 51 is installed outside.

4 and 5, the block portion 20 is bolted to the roller portion of the apparatus 99 of the present invention through the main push shaft screw thread 21 of the main push shaft 22, the block The frame 20 is fixedly connected to the block bracket 19, and the block bracket 19 is fixedly connected to the bearing block 17.

In addition, a roller shaft 16 is connected to the bearing block 17, and a roller 15 is installed on the roller shaft 16 to contact the crane limit 3 when the limit head 4 is closed. Will be.

 4 and 5, the main side frame 12 and the motor frame 14 on one side are coupled to the driving unit of the apparatus 99 of the present invention, and the motor 52 is connected to the motor frame 14. The motor shaft 53 is coupled to the motor 52, the gear shaft 54 is coupled to the motor shaft 53, and the gear bracket 54 is coupled to the screw thread b 55.

In addition, the gear frame 48 is bolted and fixed to the upper and lower parts of the main pushing housing 35, the gear screw thread 48 is installed on the gear frame 48, the gear screw thread a 49 is It is engaged with the gear screw thread b 55 to operate.

In addition, the gear frame 48 is provided with a wire guiding plate 50, the expand wire 51 is to act as a stretch guide to the wire guiding plate 50.

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

When the transfer of the coil of the material yard is to be processed, as shown in Fig. 7, the crane 2 installed with the present invention device 99 is lowered to the position of the coil 5 by the operation of the crane wire 1. In this case, a signal is input to a coil inner diameter sensor (not shown) installed at a portion of the lift head 4 formed under the crane lift 3 so that the lift head 4 is an accurate center of the coil inner diameter. In this case, close operation occurs.

During this close operation, the roller 15 of the inventive device 99 comes into contact with the side of the coil, as shown in FIG. 6 (b), and is continued by the crane limit 3 and the limit head 4. When the close operation is made, the roller 15, the main push shaft 22, the auxiliary push shaft 24, and the sensor limiter 25 are slid to the main hole 32 in the main pushing housing 35. . At this time, the auxiliary push shaft 24 is installed by the elastic spring 34 is inserted can alleviate the sudden impact is applied.

When the sensor limiter 25 is pushed toward the main hole 32 to come into contact with the sensor 26 and a signal is detected, the closing operation of the lift head 4 of the crane lift 3 is stopped.

At this time, the present invention device in accordance with the closing operation by the elastic action of the spring A (42a, 42b) fitted to the spring shaft A (40a, 40b) formed through the upper and lower sides of the pushing housing 38 of the buffer portion The shock to the shock absorbed.

In addition, the shock is buffered by the elastic action of the spring B installed on the plurality of spring shafts (B) coupled to the inner surface of the sliding bracket 27, thus, the present invention by the double, triple buffering action Will be protected from impact.

Next, as shown in Figure 6 (c), as the motor 52 is operated, the motor shaft 53, the gear bracket 54 and the gear screw thread b 55 connected to the motor is rotated, the gear screw thread Since the present invention device 99 rotates 90 degrees downward by the rotational operation of the gear screw thread a 49 connected to and engaged with the b 55, the side of the coil and the device 99 of the present invention no longer contact each other, and the crane lifts. The distance between (3) and the side of the coil is also kept constant.

When the apparatus 99 of the present invention rotates by 90 degrees, the rotational motion is measured by the measurement of PLG (rotation distance measuring device: not shown), and when the completion signal falls, the crane lift 3 is moved up to transfer the coil. When the coil is seated on the skid at the target position, and an open signal is received at the crane lift 3 and the lift head 4, the motor 52 is operated in reverse to the motor shaft 53 and the gear bracket 54. 6) and the gear screw thread b 55 rotate to rotate the apparatus 99 of the present invention to the home position as shown in FIG.

Therefore, by the device of the present invention it is possible to transfer the coil by preventing the inner and outer edge edge breakage of the coil, reduce the amount of scrap generated to prevent cost loss and roll damage in the line process, the line is continuously maintained Productivity can be greatly improved.

1. crane wire 2. crane,
3. crane lift 4. lift head
5. Coil 6. Coil telescope
7. Coil bore telescope 8. Strip
9. Edge breakage 10. Lift frame
11. Lift skid 12. Main side frame
13.bolt 14.motor frame
15. Roller 16. Roller Shaft
17. Bearing Block 18. Bearing Block Cover
19. Block Bracket 20. Block Frame
21. Main push shaft screw 22. Main push shaft
23. Main limiter square ring 24. Secondary push shaft
25. Sensor limiter band 26. Sensor
27. Sliding Bracket 28. Spring B
29. Spring shaft B 30. Spring shaft limit
31. Limiter cover 32. Main hole
33a, 33b. Pushing hole 34. Elastic spring
35. Main Pushing Housing 36. Upper Shaft Bracket
37. Lower Shaft Bracket 38. Pushing Housing
39a, 39b. Spring shaft head 40a, 40b. Spring shaft A
41a, 41b. Spring axis limit 42a, 42b. Spring A
47. Housing shaft 48. Gear frame
49. Gear thread mount 50. Wire guiding plate
51.Expanded Wire 52.Motor
53. Motor shaft 54. Gear bracket
55. Gear thread b 56. Shaft bearing block
57. Shaft bearing block cover 99. The present invention device

Claims (4)

In the device for preventing the coil edge from being damaged by the collision between the coil and the crane lift, the main side frame 12 provided on both sides of the crane lift 3 inside the lift head 4 and the main side frame 12 A main hole 32 formed between the main holes 32 and the main hole 32 is formed therein, and a main pushing housing 35 in which a sliding bracket 27 is attached to the main hole 32, and one side of the main pushing housing 35. A fixed part including a housing shaft 47 coupled to both sides of the other side and penetratingly fixed to the main side frame 12;
A part is coupled to the main hole 32 of the main pushing housing 35 so as to be receivable, and a pushing housing 38 in which pushing holes 33a and 33b are formed therein, and coupled to an outer surface of the pushing housing 38. A shock absorbing portion including a limit cover 31 that is,
The main push shaft 22 which is movable through the limiter cover 31 and moves into the pushing holes 33a and 33b, and the diameter of the main push shaft 22 which is combined with the tip of the main push shaft 22 and smaller than the main push shaft 22. A sub-push shaft 24 movable in the main hole 32, an elastic spring 34 fitted to the sub-push shaft 24, and a sensor limiter unit connected to one side of the sub-push shaft 24. And a sensing unit including a sensor 26 coupled to one side of the sliding bracket 27 and connected to an expand wire 51.
The bearing block 17 connected through the main push shaft 22 and the block bracket 19, the roller shaft 16 connected to the bearing block 17, and the roller 15 installed on the roller shaft 16. Roller type coil edge breakage prevention device comprising a roller unit provided with. The method of claim 1,
A motor frame 14 coupled to the main side frame 12 on one side, a motor 52 connected to the motor frame 14, a motor shaft 53 connected to the motor 52, and the motor shaft The drive unit provided with a gear screw thread b 55 connected to the gear screw 54 through the gear bracket 54 and a gear screw thread a 49 connected to the gear frame 48 coupled to the main pushing housing 35. Roller type coil edge breakage prevention device further comprises. The method of claim 1,
The fixing part is coupled to the other side of the sliding bracket 27, the spring shaft B (29) connected to the spring shaft limit 30 through the main push housing 35, and the spring B fitted to the spring shaft B (29) A roller type coil edge breakage prevention device, further comprising (28). The method of claim 1,
The buffer part includes spring shafts A 40a and 40b formed through both side surfaces of the upper and lower ends of the pushing housing 38, and springs A 42a and 42b fitted to the spring shafts A 40a and 40b. Spring shaft heads 39a and 39b coupled to one end of the spring shafts A 40a and 40b and upper and lower brackets 36 and 37 to which the other ends of the spring shafts A 40a and 40b are fixed. Roller type coil edge breakage prevention device further comprising.

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