KR20240027336A - roller device for up looper equipment - Google Patents

Abstract

Disclosed is a roller device for uploop equipment.
A roller device for up-loop equipment according to an embodiment includes a roller body disposed horizontally so as to be perpendicular to the rolling direction of the rolled wire in the finishing section of the rolling process and supporting the lower part of the rolled wire; a pair of roller shafts extending along the axis of the roller body at both ends of the roller body in the axial direction and rotating relative to the roller body; a pair of cam members each having a coupling hole for restricting the rotation of the roller shaft, and the coupling hole being provided at an eccentric position so that the height of the coupling hole changes when the roller shaft rotates; a pair of support members provided on an installation surface to rotatably support the pair of cam members; And it may include a rotation limiting member that limits or allows rotation of the cam member.

Description

Roller device for up looper equipment {roller device for up looper equipment}

The disclosed invention relates to a roller device for uplooper equipment used to control the tension of rolled materials in uplooper equipment.

Molten steel manufactured in a steelmaking furnace is manufactured into slabs by going through a casting process and a rolling process, and the slabs are manufactured into steel materials by going through a rolling process.

The rolling process uses the plasticity of metal to process metal materials at high or room temperature into various types of materials. It uses the continuous force formed between two rotating rolls to reduce thickness and width and increase length. It refers to plastic processing.

Among the rolling processes, there is a wire rod rolling process. In the wire rod rolling process, billets are input, heated, rolled, and cooled to produce wire rods.

In the intermediate finishing section of the wire rod rolling process, an uplooper facility is used to control the tension of the wire rod by forming a parabolic shape in the upward direction to compensate for the error in speed between the front and rear rolling stages.

The up-loop facility is equipped with a roller device whose height is adjusted in a horizontal state to control the tension of the rolled wire.

One aspect of the disclosed invention seeks to provide a roller device for uplooper equipment that can improve the height adjustment and replacement workability of rollers and contribute to improving the quality of rolled wire.

The roller device for uplooper equipment according to one aspect of the disclosed invention includes a roller body disposed horizontally so as to be perpendicular to the rolling direction of the rolled wire in the finishing section of the rolling process and supporting the lower part of the rolled wire; a pair of roller shafts extending along the axis of the roller body at both ends of the roller body in the axial direction and rotating relative to the roller body; a pair of cam members each having a coupling hole for restricting the rotation of the roller shaft, and the coupling hole being provided at an eccentric position so that the height of the coupling hole changes when the roller shaft rotates; a pair of support members provided on an installation surface to rotatably support the pair of cam members; And it may include a rotation limiting member that limits or allows rotation of the cam member.

The roller shaft may extend outside the cam member through the cam member while being coupled to the coupling hole.

The cam member is provided in the shape of a disk, and the support member may include a support groove that rotatably supports at least a lower outer periphery of the cam member.

A locking protrusion may be provided on the outside of the support groove to catch the axial outer surface of the cam member.

The rotation limiting member may include a bolt fastened to the support member to press or release the outer surface of the cam member.

At least one of the pair of support members includes a base; And it may include a body provided with the support groove and rotatably coupled to the base so as to be installed vertically or laid down in a horizontal direction.

The roller body includes an outer body supporting the wire; And an inner body that rotates integrally with the roller shaft,

The cam member may be in close contact with the inner body to be supported while the roller shaft is coupled to the coupling hole.

The roller device for uplooper equipment may be installed on the inlet and outlet sides of the uplooper equipment.

According to one aspect of the disclosed invention, it is possible to provide a roller device for uplooper equipment that can improve the height adjustment and replacement workability of rollers and contribute to improving the quality of rolled wire rods.

Figure 1 schematically shows the configuration of an uploop facility to which a roller device for uploop facility according to an embodiment of the disclosed invention is applied.
Figure 2 is an exploded view of a roller device for uploop equipment according to an embodiment of the disclosed invention.
Figure 3 is an assembly diagram of a roller device for uploop equipment according to an embodiment of the disclosed invention.
Figure 4 shows the process of adjusting the height of the roller in the roller device for uproof equipment according to an embodiment of the disclosed invention.
Figure 5 is a front view of a roller device for up-loop equipment according to an embodiment of the disclosed invention, showing the support structure of the wire.
Figure 6 is a plan view of a roller device for up-loop equipment according to an embodiment of the disclosed invention, showing the support structure of the wire.
Figure 7 is a perspective view showing the configuration of a support member in a roller device for uproof equipment according to an embodiment of the disclosed invention.
Figure 8 sequentially shows the process of separating the rollers in the roller device for uploop equipment according to an embodiment of the disclosed invention.

Like reference numerals refer to like elements throughout the specification. This specification does not describe all elements of the embodiments, and general content or overlapping content between the embodiments in the technical field to which the present invention pertains is omitted. The term 'part, module, member, block' used in the specification may be implemented as software or hardware, and depending on the embodiment, a plurality of 'part, module, member, block' may be implemented as a single component, or It is also possible for one 'part, module, member, or block' to include multiple components.

Throughout the specification, when a part is said to be “connected” to another part, this includes not only direct connection but also indirect connection, and indirect connection includes connection through a wireless communication network. do.

Additionally, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary.

Throughout the specification, when a member is said to be located “on” another member, this includes not only the case where a member is in contact with another member, but also the case where another member exists between the two members.

Terms such as first and second are used to distinguish one component from another component, and the components are not limited by the above-mentioned terms.

Singular expressions include plural expressions unless the context clearly makes an exception.

The identification codes for each step are used for convenience of explanation. The identification codes do not explain the order of each step, and each step may be performed differently from the specified order unless the specific sequences are clearly stated in the context. there is.

Hereinafter, the operating principle and embodiments of the present invention will be described with reference to the attached drawings.

Figure 1 shows an uplooper equipment 1 including a roller device 10 for the uplooper equipment according to an embodiment.

The uplooper equipment 1 can control the tension of the rod of the wire 2 by forming a parabolic loop in the upward direction of the wire 2 being rolled.

This uplooper facility (1) can be employed to compensate for and compensate for errors in speed between front and rear rolling stages in the middle finishing section of the rolling process.

As shown in Figure 1, the uplooper equipment 1 includes a pair of lower roller devices 10 arranged to support the lower part of the wire 2 on the inlet side and the outlet side, and a pair of lower roller devices ( 10) may include a push roller device 20 disposed between each lower roller device 10 and a pair of upper roller devices 30 disposed between the push roller devices 20.

The rollers 100 of the pair of lower roller devices 10 are disposed on the inlet side and the outlet side of the uplooper facility 1 to allow water to enter the inside of the uplooper facility 1 or be discharged through the uplooper facility 1. The lower part of the wire rod (2) can be supported.

The roller 31 of the pair of upper roller devices 30 supports the upper part of the wire 2, and the push roller device 20 lifts the lower part of the wire 2 upward to form a loop to form a loop. ) can be adjusted.

The roller 100 of the lower roller device 10 is arranged horizontally so as to be perpendicular to the rolling direction of the wire 2 and supports the lower part of the rolled wire 2, and the roller 31 of the upper roller device 30 supports the wire. It is arranged horizontally so as to be perpendicular to the rolling direction of (2) and can support the upper part of the rolled wire (2).

In the uplooper equipment 1, a scanner 40 that detects the height of the loop may be disposed between the upper roller device 30 and the push roller device 20 disposed on the inlet side.

The roller 21 of the push roller device 20 is connected to the link arm 22, and the link arm 22 can move the roller 21 upward or downward by the forward and backward motion of the cylinder 23. there is.

Therefore, the uplooper equipment 1 controls the operation of the cylinder 23 so that the height of the roller 21 of the push roller device 20 is adjusted according to the height of the loop detected by the scanner 40, thereby controlling the height of the looper. By changing , it is possible to control the tension of the wire 2.

The roller device 10 for uplooper equipment according to one embodiment may be the lower roller device.

The wire (2) flows into the uplooper equipment (1) or is discharged from the uplooper equipment (1) along the horizontal direction in a straight state, and the roller 100 of the lower roller device (10) moves the uplooper equipment (1). The height supporting the lower part of the wire 2 may be adjusted according to the diameter size of the wire 2 passing through it.

As shown in Figures 2 and 3, the roller 100 of the lower roller device 10 is a roller body disposed horizontally so as to be perpendicular to the rolling direction of the rolled wire 2 and supporting the lower part of the rolled wire 2. It may include (110) and a pair of roller shafts 120 that extend along the axis of the roller body 110 at both ends in the axial direction of the roller body 110 and rotate relative to the roller body 100.

The roller body 110 has an outer outer body 111 that supports the wire 2, and an inner body 112 located inside the outer body 111, so that the wire 2 is connected through the outer body 111. Can support the lower part of.

The roller shaft 120 and the inner body 112 are provided to rotate integrally with each other and rotate relative to the outer body 111, and a bearing 113 may be interposed between the outer body 111 and the inner body 112. there is.

In addition, the lower roller device 10 includes a cam member 200 having a coupling hole 210 for coupling the roller shaft 120 to limit rotation, and an installation surface (a) to rotatably support the cam member 200. ) may include a pair of support members (300,400) provided in the cam member (200) and a rotation limiting member (500) that limits or allows rotation of the cam member (200).

The roller shaft 120 has a square cross-section such as a triangle or square, and the coupling hole 210 is provided to correspond to the cross-sectional shape of the roller shaft 120, so that the roller shaft 120 coupled to the coupling hole 210 rotates. can be limited.

As shown in FIG. 4, the lower roller device 10 configured in this way is a cam member supported on the support members 300 and 400 in a state in which rotation of the cam member 200 is allowed through the rotation limiting member 500. As (200) is rotated, the height of the roller shaft 120 changes and the height of the roller body 110 supporting the lower part of the wire 2 can be adjusted, so the roller 100 and the cam member 200 ), or the height of the roller 100 can be easily adjusted without the need to separate the cam member 200 and the support members 300 and 400.

In addition, at this time, the pair of cam members 200 connected through the roller 100 always rotate as one while maintaining the position and height of each coupling hole 210, so that the roller 100 is used in the process of adjusting the height. ) can be kept aligned at the same height.

The roller shaft 120 may penetrate the cam member 200 and extend outward from the cam member 200 while being coupled to the coupling hole 210. Therefore, in the process of adjusting the height of the roller 100, the roller shaft 120 extending to the outside of the cam member 200 is held and rotated using a gripping device, so that the roller shaft 120 is held in a state supported by the support members 300 and 400. The cam member 200 can be rotated smoothly.

In addition, the cam member 200 is in close contact with the inner body 112 of the roller body 110 to form one body with the roller 100 while the roller shaft 120 is coupled to the coupling hole 210. (110) and a stable support structure can be formed.

The cam member 200 is provided in the shape of a disk, and the coupling hole 210 may be provided on one side of the rotation center (c1) of the cam member 200 to penetrate the cam member 200. For reference, in FIG. 4, symbol c2 indicates the rotation center of the coupling hole 210 and the roller shaft 120.

In addition, the support members 300 and 400 are provided with support grooves 311 and 411 that rotatably support the outer circumference of the cam member 200, so that the cam member 200 can be rotatably supported in a stable contact state.

The support grooves 311 and 411 may be provided to rotatably support at least the lower outer periphery of the cam member 200. The support grooves 311 and 411 may be provided to support the lower outer circumference corresponding to about half of the outer circumference of the cam member 200.

The support members 300 and 400 may include bases 320 and 420 supported on the installation surface, and bodies 310 and 410 that have support grooves 311 and 411 at the top and are installed so as to be flush with the bases 320 and 420. The support grooves 311 and 411 may be provided to be open upwardly at the top of the bodies 310 and 410.

The rotation limiting member 500 may be provided with a bolt 510 fastened to the support members 300 and 400 to press or release the outer surface of the cam member 200.

The bolts 510 may be fastened to the bodies 310 and 410 to allow entry into the support grooves 311 and 411. The bolts 510 fastened to the bodies 310 and 410 limit the rotation of the cam member 200 by pressurizing the outer circumference of the cam member 200 when rotated in the tightening direction, and restrict the rotation of the cam member 200 when rotated in the loosening direction. Rotation of the cam member 200 can be allowed by releasing the pressure.

Bolts 510 may be provided in pairs on each support member 300 and 400 to press or release the pressure on one outer side and the other outer side of the cam member 200.

When the height of the roller 100 is adjusted, the bolt 510 presses the outer periphery of the cam member 200 to limit the rotation of the cam member 200, thereby rotating relative to the roller shaft 120 whose rotation is limited. The lower part of the rolled wire 2 can be smoothly supported through the outer body 111.

Additionally, on the outside of the support grooves 311 and 411, locking protrusions 312 and 412 may be provided so that the axial outer surface of the cam member 200 is caught. The locking protrusions 312 and 312 prevent the cam member 200 from moving in the axial direction, thereby allowing the roller 100 to stably support the lower portion of the wire 2 without moving in the axial direction.

In this way, both sides of the roller 100 of the roller device 10 for up-loop equipment according to an embodiment are always maintained at the same height, and axial movement can be prevented.

Therefore, as shown in FIGS. 5 and 6, the wire 2 entering the uploop facility 1 or being discharged from the uploop facility 1 is moved to the roller 100 in a state in which cobble or meandering is prevented. ) can be maintained in a stably supported state at the center of the uproof facility, and accordingly, the roller device 10 for uproof equipment has scratches, scabs, pressing marks, etc. on the surface of the wire 2 due to friction with the roller 100. This can contribute to improving the quality of the wire 2 by preventing flaws from occurring.

In addition, in order to improve the replacement workability of the roller 100, at least one of the pair of support members 300 and 400 can be rotated on the base 420 so that the body 410 is erected vertically or laid down horizontally. can be combined.

As shown in FIG. 7, in this embodiment, one support member 300 is provided as a fixed type in which the body 310 is fixed to the base 320 to prevent rotation, and the other support member 400 is The body 410 may be rotatably coupled to the base 420.

The support member 300 provided so that the body 310 is fixed to the base 320 forms a fixed support member, and the support member 400 provided so that the body 410 can rotate on the base 420 is rotated. A typical support member can be formed.

The body 410 of the rotatable support member 400 is rotatably coupled to the base 420 through a hinge member 430 having a hinge structure, and can be placed vertically or laid horizontally with respect to the installation surface (a). You can.

According to the configuration of the support member 400, as shown in FIG. 8, the pair of cam members 200 are supported by the pair of support members 300 and 400, and the rotary support member 400 As the body 410 is rotated to lie down in the horizontal direction, the roller 100 and the cam member 200 can be pulled out to the side and separated from the fixed support member 300.

In addition, when reassembling the roller 100 and the cam member 200 to the support members 300 and 400, one cam member ( 200) is supported by the support groove 311 of the fixed support member 300, and in this state, the opposite cam member 200 is supported by the support groove 411 of the rotatable support member 400. By rotating 410 so that it stands vertically, the roller 100 can be reassembled into the support members 300 and 400 integrally with the pair of cam members 200. Therefore, the roller device 10 for up-loop equipment according to an embodiment can improve the replacement workability of the roller 100.

1: Uplooper equipment 10: Roller device for uplooper equipment
20: Push roller device 30: Upper roller device
100: roller 110: roller body
120: roller shaft 200: cam member
210: coupling hole 300,400: support member
310, 410: Body 311, 411: Support groove
312,412: Locking jaw 320, 420: Base
500: rotation limiting member 510: bolt

Claims (8)

A roller body disposed horizontally so as to be perpendicular to the rolling direction of the rolled wire in the finishing section of the rolling process and supporting the lower portion of the rolled wire;
a pair of roller shafts extending along the axis of the roller body at both ends of the roller body in the axial direction and rotating relative to the roller body;
a pair of cam members each having a coupling hole for restricting the rotation of the roller shaft, and the coupling hole being provided at an eccentric position so that the height of the coupling hole changes when the roller shaft rotates;
a pair of support members provided on an installation surface to rotatably support the pair of cam members; and
A roller device for uplooper equipment including a rotation limiting member that limits or allows rotation of the cam member. According to clause 1,
A roller device for up-looper equipment wherein the roller shaft penetrates the cam member while coupled to the coupling hole and extends to the outside of the cam member. According to clause 1,
The cam member is provided in the shape of a disk,
The support member is a roller device for uplooper equipment including a support groove that rotatably supports at least a lower outer periphery of the cam member. According to clause 3,
A roller device for uplooper equipment in which a locking protrusion is provided on the outside of the support groove to catch the axial outer surface of the cam member. According to clause 3,
The rotation limiting member is a roller device for uplooper equipment including a bolt fastened to the support member to press or release the outer surface of the cam member. According to clause 3,
At least one of the pair of support members,
Base; and
A roller device for uplooper equipment, including a body provided with the support groove and rotatably coupled to the base so as to be installed vertically or laid down in a horizontal direction. According to clause 1,
The roller body is,
An outer body supporting the wire; and
It includes an inner body that rotates integrally with the roller shaft,
The cam member is a roller device for uplooper equipment that is in close contact with the inner body to support it while the roller shaft is coupled to the coupling hole. According to clause 1,
The roller device for uplooper equipment is a roller device for uplooper equipment installed on the inlet and outlet sides of the uplooper equipment.

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