KR20140085128A - Mandrell apparatus - Google Patents

Abstract

According to an embodiment of the present invention, a mandrel apparatus comprises: a cylindrical block guide rod which is movable in a longitudinal direction; a plurality of traverse blocks which are installed on an outer circumferential surface of the block guide rod and arranged at regular intervals in the longitudinal direction of the block guide rod, move with the block guide rod, and have inclined guide plates in the longitudinal direction; a segment which is installed on an outer side of the traverse block and has a plurality of segment guide grooves concave from an inner side and sloping in the longitudinal direction so that the guide plate is inserted; a driving body which is inserted and fixed into an accommodating groove concave from the guide plate of the traverse block and has first and second bottom surfaces formed in the longitudinal direction of the travers block and a high surface arranged between the first and second bottom surfaces; a guide bar which is inserted and installed into a through hole formed in at least one of the segment guide grooves and lifts along the through hole; and a roller which is connected to the guide bar, is in contact with the driving body, and moves along the first and second bottom surfaces and the high surface by moving the driving rail.

Description

[0001] MANDRELL APPARATUS [0002]

The present invention relates to a mandrel drilling apparatus, and more particularly, to a mandrel drilling apparatus that prevents a rubber sleeve inserted and installed on the outer circumferential surface of a mandrel drill from being pulled out together with a coiled product through a mandrel drill of a tension reel To a drilling machine.

Generally, cold rolled products are cold rolled at room temperature with hot coils, rolled to meet the demand, then recovered the properties of materials deformed by physical force through continuous annealing line, Are manufactured by working together. The steel sheet produced in the cold rolling and hot rolling mills is cut in a predetermined length by a cutting machine while passing through the pinch rolls in one direction, and then the steel sheet in the form of a sheet is cut into rolls to reduce productivity and logistics costs, Wound on a take-up roll of a tension reel.

In the production of coil type products, the strip is rolled on a mandrel drill of a rotating tension reel to produce a coil type product. In order to prevent defects caused by the mandrel drilling of a steel material tension reel when winding the initial strip, Rubber sleeve of material is inserted to produce coil type product. When the coil-shaped product having a predetermined weight is completed during the winding operation, the strip is cut and the coil is drawn out from the mandrel. In this case, the elasticity of the rubber sleeve used for a long period of time is reduced, or the lubricating oil injected into the mandrel is buried in the rubber sleeve and is drawn out together with the coiled product.

Korean Patent Registration No. 10-0748130. Oct. 10, 2007.

SUMMARY OF THE INVENTION An object of the present invention is to insert a sleeve into a mandrel drilling apparatus and winding a steel sheet into a coil shape.

Another object of the present invention is to prevent the sleeve from being pulled together when the coil product is taken out after winding the steel sheet into a coil shape on the mandrel drilling machine.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

According to an embodiment of the present invention, the mandrel drilling apparatus comprises: a block guide rod in the shape of a cylinder movable along a longitudinal direction; A plurality of traverse blocks disposed on an outer circumferential surface of the block guide rod and spaced apart from each other in the longitudinal direction of the block guide rod and moving together with the block guide rod and each having a guide plate inclined along the longitudinal direction; A segment provided on the outside of the traverse block and having a plurality of segment guide grooves that are recessed from the inner side and are inclined along the longitudinal direction to insert the guide plate; A driving body inserted and fixed in the receiving recess recessed from the guide plate of the traverse block and having a first and a second bottom surface along a longitudinal direction of the traverse block and a high surface disposed between the first and second bottom surfaces; ; A guide bar inserted into a through hole formed in any one of the segment guide grooves and movable up and down along the through hole; And a roller connected to the guide bar and in contact with the driving body, and moving along the first bottom surface, the high surface, and the second bottom surface as the driving rail moves.

The first bottom surface may be located inside the receiving groove, and the second bottom surface and the high surface may be located outside the receiving groove.

Wherein the guide plate is moved along the segment guide groove and the roller is positioned on the second bottom surface in a state where the guide plate is positioned at one end of the segment guide groove and the guide plate is positioned at the other end of the segment guide groove, The roller may be located on the first bottom surface, and the roller may be positioned on the high surface with the guide plate positioned between one end and the other end of the segment guide groove.

The depth of the segment guide groove may increase from one end toward the other end.

The guide bar may protrude outside the through hole when the roller is positioned on the high surface.

Wherein the plurality of segments are provided along the circumference of the block guide rod and the mull drilling device further comprises a sleeve wound on an outer surface of the segment, wherein the through hole is positioned forward of the tip of the sleeve have.

 According to an embodiment of the present invention, the mandrel drilling apparatus includes a cylindrical block guide rod movable in the longitudinal direction; A plurality of traverse blocks disposed on an outer circumferential surface of the block guide rod and spaced apart from each other in the longitudinal direction of the block guide rod and moving together with the block guide rod and each having a guide plate inclined along the longitudinal direction; A segment provided on the outside of the traverse block and having a plurality of segment guide grooves that are recessed from the inner side and are inclined along the longitudinal direction to insert the guide plate; A guide bar inserted into a through hole formed in any one of the segment guide grooves and movable up and down along the through hole; And a sleeve wound on the outer side of the segment, the guide bar protruding outwardly of the through hole as the traverse block moves, thereby restricting the movement of the sleeve.

Wherein the mandrel drill is inserted and fixed in a receiving groove recessed from the guide plate of the traverse block and is disposed between the first and second bottom surfaces and the first and second bottom surfaces along the longitudinal direction of the traverse block A driving body having a high surface; And a roller connected to the guide bar and contacting the driving body, and moving along the first bottom surface, the high surface, and the second bottom surface as the driving rail moves.

According to one embodiment of the present invention, a sleeve can be mounted on the mandrel of the tension reel to prevent a reel mark defect in the steel sheet and to be wound into a coil product. In addition, the elasticity of the sleeve is reduced due to the long use of the sleeve, and the coiled product and the sleeve can be prevented from being pulled out together with the lubricant added to the high speed rotating mandrel.

1 is a view schematically showing the operation process of the mandrel.
FIG. 2 is a side view showing an operation process according to a change in outer diameter of the mandrel drill shown in FIG. 1;
3 is a schematic view of a mandrel drilling apparatus according to an embodiment of the present invention.
4 is a view showing a guide groove formed on the bottom surface of the segment.
5 is a view showing the connection structure of FIG.
6 to 8 are views showing the operation of the sleeve fixing unit as the block guide rod moves.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description. Also, the 'connection' referred to below should be construed to include not only the case where two components are directly connected but also the case where they are indirectly connected through another medium.

In general, in a winding line for producing a product in a rolling process, a rubber sleeve inserted in a mandrel of a tension reel to prevent an inner diameter reel mark of a superfine material is used to reduce the thickness of the sleeve of the cold- The inner diameter of the product is matched to the outer diameter of the coil 3, and when the diameter of the mandrel is reduced, the product is reduced by the elastic force of the rubber, The product is taken out using the gap.

1 is a view schematically showing the operation process of the mandrel. 1 (a), an intermediate state in which the coil wound up as shown in Fig. 1 (b) is withdrawn, a rubber sleeve as shown in Fig. 1 (c) It can be changed to a reduced state. 1 (a) to 1 (c), a block guide rod 10 is connected to a drum case body 60 for winding a steel sheet into a coil-shaped product, and a block guide On the outer circumferential surface of the rod 10, a block guide rod groove (15 in Fig. 3) is formed. The trebles block 20 is inserted into the block guide rod groove 15 (Fig. 3). The trebles block 20 has guide plates (25 in Fig. 3) inclined along the longitudinal direction of the block guide rods, and is movable together as the block guide rods 10 are moved forward or backward.

A segment 50 is provided on the outside of the trebles block 20. The segment 50 has a guide groove (53 in Fig. 4) shaped to engage with a guide plate (25 in Fig. 3) of the trebles block 20 and, as the block guide rod 10 moves, 25) moves along the guide groove (53 in Fig. 4) to adjust the outer diameter of the mandrel drill 1. A wedge rod 85 can be inserted into the drum base body 60 and the block guide rod 10 and the wedge rod 85 is movable in connection with the cylinder 80.

A plurality of sensors may be provided between the cylinder 80 and the drum case body 60 to detect changes in the outer diameter of the mandrel drums 1 as the wedge rod 85 moves. An extension sensor bracket 72, an intermediate sensor bracket 74 and a reduction sensor bracket 75 may be provided on the wedge rod 85. A position detection sensor 70 disposed outside the wedge rod 85 As the brackets 72, 74 and 76 installed on the wedge rod 85 are sensed, the change in the outer diameter of the mandrel can be controlled. As the wedge rod 85 advances or retracts, the outer diameter of the mandrel 1 is changed to take up the winding of the steel sheet and the coil, and to replace the rubber sleeve 100 inserted into the mandrel.

FIG. 2 is a side view showing an operation process according to a change in outer diameter of the mandrel drill shown in FIG. 1; 2, the operation of the mandrel drill 1 is operated in a three-point mode in which the outer diameter of the mandrel 1 is in the expanded state (a), the intermediate state (b), and the reduced state (c). Fig. 1 (a) shows the work state of winding the steel sheet into the coil 110 in the extended state of the mandrel drill 1, Fig. 2 (b) shows the intermediate state of the mandrel drill 1, The coil 110 can be taken out from the mandrel drill 1. Fig. 3 (c) shows the reduced diameter of the outer diameter of the mandrel drill 1. In the reduced state, the rubber sleeve 100 can be taken out for replacement of the rubber sleeve 100.

2 (b), when the coil 110 wound in the intermediate state of the mandrel 1 is pulled out, the rubber sleeve 100 used for a long time is reduced in elasticity, There is a problem that the lubricant injected into the take-up mandrel 1 flows into the rubber sleeve 100 and the coil 110 wound around the rubber sleeve 100 and the rubber sleeve 100 are drawn out together. Therefore, according to the present invention, the rubber sleeve 100 can be easily fixed to the mandrel drill 1 when the wound coil 110 is pulled out (intermediate state of the mandrel) The details will be described below.

FIG. 3 is a schematic view of a mandrel drilling apparatus according to an embodiment of the present invention, and FIG. 4 is a view showing a guide groove formed on a bottom surface of a segment. 5 is a view showing the connection structure of FIG. 3 A. FIG. Generally, in the coil winding work, coil type products are produced as coil type products by winding a steel sheet on a rotating mandrel (1). However, when winding an initial steel sheet, it is necessary to prevent a defect caused by a steel- (1) A rubber-like rubber sleeve (110) is inserted into the outer diameter to produce a coil-shaped product. When the coil-shaped product having a predetermined weight is completed during the winding operation, the steel sheet is cut and the coil 110 is taken out from the mandrel drill 1. In this case, the elasticity of the rubber sleeve 110 used for a long period of time is reduced, or the lubricating oil or the like injected into the mandrel 1 is buried in the rubber sleeve 110 and is taken out together with the coiled product.

Therefore, as described above, the block guide rod 10 of the present invention is connected to the drum case body 60 and is movable along the longitudinal direction. A wedge rod 85 is inserted into the inner surface of the block guide rod 10 and the wedge rod 85 is connected to the cylinder and can move together with the block guide rod 10. A traverse block groove 15 is formed on the outer circumferential surface of the block guide rod 10 and a traverse block 20 is inserted and fixed in the traverse block groove 15. A support plate 22 is connected to the lower end of the trebles block 20 and the trebles block groove 15 has a shape capable of fixing the trebles 20. And may be formed on the outer circumferential surface of the block guide rod 10 in plurality. The trebles block 20 may also be provided in a number corresponding to the trebles block grooves 15.

The traverse block 20 installed at the upper portion of the support plate 22 may be spaced apart from the block guide rod 10 along the longitudinal direction of the block guide rod 10 and the length of the block guide rod 10 And a guide plate 25 shaped to be inclined along the direction. In addition, as described above, the segment 50 is provided outside the trebles block 20. The segment 50 has a guide groove 53 shaped to engage with the guide plate 25 of the trebles block 20. The guide groove 53 has a shape corresponding to the shape of the traverse block 20, And the depth thereof is increased. That is, as the block guide rod 10 moves, the guide plate 25 moves along the guide groove 53, so that the outer diameter of the mandrel drill 1 can be enlarged or reduced.

The traverse block 20 has a receiving groove 28 which is recessed from the guide plate 25 and a driving body 30 is provided in the receiving groove 28. The driving body 30 is inserted and fixed in the receiving groove and is disposed between the first and second bottom surfaces 36 and 38 and between the first and second bottom surfaces 36 and 38 along the longitudinal direction of the traverse block 20 And a high surface 37 to be disposed. The driving body 30 is also fixed to the traverse block 20 so that the driving body 30 moves together with the movement of the block guide rod 10. [

A roller 35 is provided on the upper surface of the drive body 30 and the roller 35 is disposed on the first bottom surface 36 in the extended state of the mandrel drill 1 for winding the steel plate in the form of a coil, And can be switched to a reduced state for replacement of the rubber sleeve 100 used to prevent surface defects generated in the inner circumferential surface of the coil 110 inserted into the mandrel 1. That is, the rollers 35 can move sequentially to the first bottom surface 36, the high surface 37, and the second bottom surface 38 of the driving body 30, and the guide bars 40, Respectively. The first bottom surface 36 may protrude from the receiving groove 28 and the buffer member 45 may be inserted into the guide bar 40. The buffer member 45 may be an elastic spring.

The receiving groove 28 may be formed at the forefront of the traverse block 20 and the through hole 55 may be formed on the segment 50 connected to the outside of the traverse block 20. The through hole 55 is located forward of the distal end of the rubber sleeve 100 inserted into the mandrel drill 1. Since the guide bar 40 can be moved together with the through hole 55 as the traverse block 20 moves, the roller 35 can be moved together with the first bottom surface 36, the high surface 37, Since the guide bar 40 is movable along the bottom surface 38, the guide bar 40 is also movable along the guide hole 55.

Since the block guide rods 10 can have a plurality of traverse block grooves 15 on both sides and lower sides in addition to the traverse blocks 20 provided at the upper end portion of the block guide rods 10, Can be inserted and fixedly installed. The elevating hole 55 may also be formed in the segment 50 disposed on the uppermost portion of the traverse block 20 disposed at the foremost position and the driving body 30 and the roller 35 and the receiving groove 28, It is also the same as the above-described structure. The operation of the guide bar 40 as the traverse block 20 moves through the following drawings will be described.

5 to 7 are views showing the operation of the guide bar as the block guide rod moves. Fig. 5 is a diagram showing an expanded state of a mandrel drill 1 for winding a steel sheet, and Fig. 6 is a diagram showing an intermediate state of a mandrel drill 1 for taking out a coil product after coil winding is completed. 7 is a view showing a state in which the mandrel drill 1 is contracted to replace the rubber sleeve 100 inserted into the mandrel drill 1.

As described above, when the steel sheet is wound, the outer diameter of the mandrel drill 1 is expanded toward the rubber sleeve 100. The segment 50 which is the outer layer of the mandrel 1 is formed with an inclined guide groove 53 and moves along the guide plate 25 of the traverse block 20. The guide plate 25 can be extended and contracted while sliding along the guide groove 53, and this can be operated by dividing into the three-point (enlarged, middle, reduced) mode described above. The roller 35 is positioned on the first bottom surface 36 and the guide bar 40 is disposed on the through hole 55 in the extended state of the mandrel drill 1.

When the coil winding is completed, the wedge rod 85 of the mandrel drill 1 is moved forward to withdraw the coil product from the mandrel drill 1, thereby reducing the outer diameter of the mandrel drill 1. As the wedge rod 85 moves, the block guide rod 10 moves together with the traverse block 20 inserted into the block guide rod 10 together. That is, the roller 35 moves along the driving body 30 provided in the receiving groove 28 of the traverse block 20, and thus moves from the first bottom surface 36 to the high surface 37. The guide bar 40 protrudes from the through hole 55 to prevent the rubber sleeve 100 from being pulled out together with the coil 35 when the coil 35 is pulled out.

7, when the rubber sleeve 100 inserted in the mandrel drill 1 is replaced, the block guide rod 10 moves to change the outer diameter of the mandrel drill 1 to the minimum state . The roller 35 moves along the drive body 30 provided in the receiving groove 28 of the trebles block 20 and thus moves from the high surface 37 to the second bottom surface 38. As the roller 35 moves to the second bottom surface 38, the guide bar 40 is lowered and positioned inside the through hole 55 to facilitate replacement of the rubber sleeve 100.

In general, the inner circumferential surface of the rubber sleeve 100 needs to maintain a constant space in all directions due to the repeated operation of the enlarged, intermediate, and contracted states of the mandrel 1, but the rubber sleeve 100 There is a problem that the circular holding itself can not be performed at a constant interval due to the reduced elasticity due to the winding operation, which makes it difficult to pull out and enter the coil drill (1). When the lubricant for injecting into the segment 50 of the mandrel 1 which performs the forward and backward movements together with the high-speed rotation flows into the inner diameter of the rubber sleeve 100 and the outer diameter of the mandrel drill 1 is in the intermediate state The guide bar 40 protrudes from the through hole 55 to restrict movement of the rubber sleeve 100 to prevent the rubber sleeve 100 from being pulled out together.

That is, the rubber sleeve 100 can be easily mounted on the mandrel 1 to prevent surface defects of the steel sheet and be wound on the coil product. The elasticity of the rubber sleeve 100 is reduced due to the long use of the rubber sleeve 100 and the coiled product and the rubber sleeve 100 are pulled out together with the lubricant added to the high speed rotating mandrel 1 Can be prevented. Therefore, when the coiled product is taken out, the guide bar 40 fixes the rubber sleeve 100, thereby reducing manufacturing downtime and workload, thereby increasing productivity and efficiency.

Although the present invention has been described in detail by way of examples, other forms of embodiments are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the embodiments.

1: Mandrel 10: Block guide rod
20: Trevus block 22:
25: guide plate 30:
35: roller 40: guide bar
45: buffer member 50: segment
55: Through hole 60: Drum case body
70: Position sensor 80: Cylinder
85: Wedge rod 100: Rubber sleeve
110: Coil

Claims (8)

A cylindrical block guide rod movable along the longitudinal direction;
A plurality of traverse blocks disposed on an outer circumferential surface of the block guide rod and spaced apart from each other in the longitudinal direction of the block guide rod and moving together with the block guide rod and each having a guide plate inclined along the longitudinal direction;
A segment provided on the outside of the traverse block and having a plurality of segment guide grooves that are recessed from the inner side and are inclined along the longitudinal direction to insert the guide plate;
A driving body inserted and fixed in the receiving recess recessed from the guide plate of the traverse block and having a first and a second bottom surface along a longitudinal direction of the traverse block and a high surface disposed between the first and second bottom surfaces; ;
A guide bar inserted into a through hole formed in any one of the segment guide grooves and movable up and down along the through hole; And
And a roller connected to the guide bar and contacting the driving body, and moving along the first bottom surface, the high surface, and the second bottom surface as the drive rail moves. The method according to claim 1,
Wherein the first bottom surface is located inside the receiving groove,
And the second bottom surface and the high surface are located outside the receiving groove. 3. The method of claim 2,
The guide plate moves along the segment guide groove,
The roller is positioned on the second bottom surface in a state where the guide plate is positioned at one end of the segment guide groove,
The roller is positioned on the first bottom surface in a state where the guide plate is positioned at the other end of the segment guide groove,
And the roller is located on the high plane in a state where the guide plate is positioned between one end and the other end of the segment guide groove. The method of claim 3,
And the depth of the segment guide groove increases from one end toward the other end. The method of claim 3,
And the guide bar protrudes outside the through hole when the roller is positioned on the high surface. The method according to claim 1,
The plurality of segments are provided along the circumference of the block guide rod,
Wherein the mandrel drilling device comprises:
Further comprising a sleeve wrapped around an outer surface of the segment,
And the through hole is positioned forward of the tip of the sleeve. A cylindrical block guide rod movable along the longitudinal direction;
A plurality of traverse blocks disposed on an outer circumferential surface of the block guide rod and spaced apart from each other in the longitudinal direction of the block guide rod and moving together with the block guide rod and each having a guide plate inclined along the longitudinal direction;
A segment provided on the outside of the traverse block and having a plurality of segment guide grooves that are recessed from the inner side and are inclined along the longitudinal direction to insert the guide plate;
A guide bar inserted into a through hole formed in any one of the segment guide grooves and movable up and down along the through hole; And
And a sleeve wrapped around the segment,
Wherein the guide bar protrudes outwardly of the through hole as the traverse block moves, thereby restricting the movement of the sleeve. 8. The method of claim 7,
Wherein the mandrel drilling device comprises:
A driving body inserted and fixed in the receiving recess recessed from the guide plate of the traverse block and having a first and a second bottom surface along a longitudinal direction of the traverse block and a high surface disposed between the first and second bottom surfaces; ;
And a roller connected to the guide bar and contacting the driving body, and moving along the first bottom surface, the high surface, and the second bottom surface as the drive rail moves.

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