JP2005046861A - Hot rolling equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide hot rolling equipment realizing continuous rolling by an adequate apparatus arrangement. <P>SOLUTION: The hot rolling equipment has a finish mill 4 to perform finish rolling of a metal bar 11 delivered from a coil box 13, the distance S1 between the coil box 13 and the finish mill 4 is set to be ≤70 m, and a joining apparatus 3 to joining a rear end of a preceding metal bar 9 with a front end of a succeeding metal bar 6 while the metal bar 11 is traveling is disposed between the coil box 13 and the finish mill. An adequate arrangement of a coil box 2 and the finish mill 4 is specified, and the preceding metal bar 9 and the succeeding metal bar 6 are joined with each other while the metal bar 11 is traveling according to an adequate arrangement of the apparatus. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot rolling facility capable of joining a preceding metal plate and a succeeding metal plate while the metal plate is traveling.
[0002]
[Prior art]
In a hot rolling facility for metal plates, a metal plate having a desired thickness is obtained by a rough rolling mill and a finish rolling mill. The metal plate (metal bar) exiting the roughing mill is sent to the finishing mill, but the metal bars of each rolling mill have different running speeds. Is known (for example, see Non-Patent Document 1).
[0003]
[Non-Patent Document 1]
2nd edition “Recent hot strip manufacturing technology in Japan” Japan Steel Association p. 187-p. 190
[0004]
In such equipment, the rear end of the metal bar passes through the roughing mill and is then sent to the finishing mill, so the distance between the roughing mill and the finishing mill is greater than the length of the metal bar. Is set. The distance between the final stage of the roughing mill and the first finishing mill is almost 95 m or more.
[0005]
On the other hand, it has been developed to join metal bars between a rough rolling mill and a finish rolling mill so that finish rolling can be performed continuously. In order to perform finish rolling continuously, it is necessary to join metal bars at a high speed, and various techniques have been proposed.
[0006]
As a technique for joining metal bars at high speed, for example, the rear end of the preceding metal bar and the front end of the subsequent metal bar are overlapped, both metal bars are sheared simultaneously, and the new surfaces are brought into direct contact with each other in the shearing process. A technique for joining is known (see, for example, Patent Document 1). Since this technique is joining by shearing, joining can be performed simply and in a short time, and is a method suitable for hot rolling equipment.
[0007]
[Patent Document 1]
JP 9-174117 A
[0008]
[Problems to be solved by the invention]
2. Description of the Related Art Conventionally, hot rolling equipment has been variously proposed for arrangement of a rough rolling mill, a finish rolling mill, and the like, and a joining apparatus for enabling continuous rolling. However, the specific arrangement situation or the like has not been specified, and the present situation is that the technology has not been established for new installation in a limited place or additional installation of equipment to existing facilities.
[0009]
The present invention has been made in view of the above situation, and by joining the preceding metal plate and the succeeding metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, continuous rolling is possible with the appropriate apparatus arrangement. An object of the present invention is to provide a hot rolling facility.
[0010]
[Means for Solving the Problems]
The hot rolling equipment of the present invention according to claim 1 for achieving the above object is
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining device was set to start joining within a maximum of 55 m before the finishing mill and set to finish joining at least 15 m before the finishing mill.
It is characterized by that.
[0011]
Thereby, the joining range by a short time joining apparatus is prescribed | regulated appropriately.
[0012]
The hot rolling equipment of the present invention according to claim 2 for achieving the above object is as follows.
Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining device was set to start joining within a maximum of 55 m before the finishing mill and set to finish joining at least 15 m before the finishing mill.
It is characterized by that.
[0013]
Thereby, the joining range by a short time joining apparatus is prescribed | regulated appropriately, and the range of the existing installation is prescribed | regulated appropriately, when a short time joining apparatus is additionally installed.
[0014]
The hot rolling equipment of the present invention according to claim 3 for achieving the above object is
Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A coil box is installed between the roughing mill and the finishing mill, and the finishing mill performs finish rolling of the metal sheet fed from the coil box,
The distance between the coil box and the finishing mill is set to 70 m or less,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining device was set to start joining within a maximum of 55 m before the finishing mill and set to finish joining at least 15 before the finishing mill.
It is characterized by that.
[0015]
As a result, the joining range by the short-time joining device is properly defined, and even when a short-time joining device is additionally installed, the existing equipment range is properly prescribed, and the coil box and the finish rolling mill are properly arranged. It is prescribed.
[0016]
And the hot rolling equipment of the present invention concerning Claim 4 is
In the hot rolling equipment according to any one of claims 1 to 3,
The maximum value of the traveling speed of the metal plate on the entry side of the finishing mill is set to 70 m / min or more.
It is characterized by that.
[0017]
Thereby, the advancing speed of the metal plate on the entry side of the finish rolling mill is properly defined.
[0018]
Moreover, the hot rolling equipment of the present invention according to claim 5 is
In the hot rolling equipment according to any one of claims 1 to 4,
In the joining device, the distance from the start of joining to the end of joining is set to 15 m or less.
It is characterized by that.
[0019]
Thereby, the proper arrangement | positioning of a joining apparatus is prescribed | regulated.
[0020]
Moreover, the hot rolling equipment of the present invention according to claim 6 is
In the hot rolling facility according to claim 3,
The distance between the rough rolling mill and the coil box is set to 40 m or more.
Hot rolling equipment characterized by that.
[0021]
Thereby, from a rolling mill to a coil box is prescribed | regulated appropriately.
[0022]
Moreover, the hot rolling equipment of the present invention according to claim 7
In the hot rolling equipment according to any one of claims 1 to 4,
In the short-time bonding apparatus, the distance required from the start of bonding to the end of bonding is set to about 1 m or less.
It is characterized by that.
[0023]
Thereby, the distance required from the start of joining of the single time joining apparatus to the end of joining is properly defined.
[0024]
Moreover, the hot rolling equipment of the present invention according to claim 8 is
In the hot rolling facility according to any one of claims 1 or 2,
It is set so that rolling of the preceding metal plate and the subsequent metal plate does not overlap at the time of joining with a short-time joining device.
It is characterized by that.
[0025]
Thereby, it is prescribed | regulated so that the simultaneous biting state in a rough rolling mill and a finish rolling period may be eliminated at the time of joining in continuous rolling.
[0026]
Moreover, the hot rolling equipment of the present invention according to claim 9 is
In the hot rolling facility according to any one of claims 5 or 7,
It is provided with a superimposing means that superimposes the rear end of the preceding metal plate and the front end of the succeeding metal plate, and the short time joining device pushes from both sides of the overlapping portion of the metal plate and joins it while shearing. It is a joining mechanism with a shearing blade
It is characterized by that.
[0027]
Accordingly, it is defined that the shearing surfaces are joined by plastic flow deformation in the shearing process between the rear end of the preceding metal plate and the front end of the subsequent metal plate.
[0028]
Moreover, the hot rolling equipment of the present invention according to claim 10 is
In the hot rolling equipment according to any one of claims 1 to 9,
At least one of a bar heater or an edge heater was placed between the short-time joining device and the finishing mill
It is characterized by that.
[0029]
Thereby, the appropriate arrangement | positioning of the installation provided with the bar heater or the edge heater is prescribed | regulated.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
The overall situation of the hot rolling facility will be described with reference to FIG. FIG. 1 shows the overall configuration of a hot rolling facility according to an embodiment of the present invention.
[0031]
A hot rolling facility according to this embodiment includes a roughing mill (rough mill) 1, a coil box 2, a joining device 3, a finishing mill (finishing mill) 4 and a down-roller configured from a plurality of stages from the upstream side. A coiler 5 is provided.
[0032]
The metal plate (following metal bar) 6 rolled by the coarse mill 1 is wound around the coiler of the coil box 2, and the difference in travel speed between the coarse mill 1 and the finishing mill 4 is adjusted. The trailing metal bar 6 unwound from the coiler of the coil box 2 is cut at the tip by the crop shear 7, and then the rear end of the preceding metal bar 9 by the stacking device 8 of the joining device 3 (if necessary, the crop shear 7 The end portion was cut by the above.
[0033]
The leading end of the trailing metal bar 6 and the trailing end of the preceding metal bar 9 are joined by the joining machine 10 of the joining device 3, and the crop at the joined portion is cut by the crop processing device 12. The metal bar 11 joined by the joining device 3 and brought into a continuous state is sent to the finishing mill 4.
[0034]
The joining device 3 is configured to join the rear end of the preceding metal bar 9 and the front end of the succeeding metal bar 6 while the metal bar is traveling, and is a short-time joining device capable of joining in a short time. In order to perform joining during traveling, a configuration in which the joining machine moves following the traveling of the metal bar or a configuration in which the joining machine swings following the traveling of the metal bar can be applied.
[0035]
For example, although the details will be described later, the joining machine 10 of the joining apparatus 3 joins while pushing and shearing from both sides of the overlapping portion of the rear end of the preceding metal bar 9 and the front end of the succeeding metal bar 6. The joining mechanism has a pair of shear blades.
[0036]
As the bonding machine 10, other types of bonding machines such as an induction heating method, a laser heating method, a welding method, and the like can be used as long as the metal bar can be bonded during traveling in a short time other than the method of bonding while shearing. It is possible to apply.
[0037]
The metal bar 11 sent to the finishing mill 4 is successively hot-rolled to a desired plate thickness by a multi-stage rolling mill and rolled to a desired plate thickness, and the metal bar 11 rolled to the desired plate thickness is down-coiler. 5 is wound up.
[0038]
In the figure, 13 is a leveler provided on the exit side of the coil box 2, 14 is a leveler provided on the exit side of the joining device 3, 15 is a crop shear provided on the entry side of the finishing mill 4, 16 Is an edge heater disposed between the leveler 14 and the crop shear 15, and 17 is a bar heater disposed on the downstream side of the edge heater 16.
[0039]
The arrangement of the levelers 13 and 14, the crop shear 15, the edge heater 16 and the bar heater 17 is appropriately selected and arranged according to the conditions of the hot rolling facility, etc. It is not limited to.
[0040]
Further, the crop shear 7 for cutting the rear end of the preceding metal bar 9 and the front end of the subsequent metal bar 6 is necessary when the metal bars are joined to each other, but the metal bars are overlapped and joined in the process of shearing. In this case, it is not always necessary and can be omitted.
[0041]
An example of the bonding machine 10 of the bonding apparatus 3 will be specifically described with reference to FIGS. 2 and 3 show a schematic configuration of the joining machine 10, FIG. 4 shows a concept of a joining completion state, and FIGS. 5 and 6 show a concept of a blade driving mechanism.
[0042]
An outline of the bonding machine 10 will be described with reference to FIGS. 2 and 3. FIG. 2 is a joining start state, and FIG. 3 is a joining completion state.
[0043]
As shown in FIG. 2, the leading end 22 of the trailing metal bar 6 is overlaid on the trailing end 21 of the preceding metal bar 9, and the portion where the trailing end 21 and the leading end 22 overlap each other has an upper cutter 26 having a protrusion 25. And a lower cutter 28 having a protrusion 27. That is, the protrusions 25 and 27 are in contact with the surfaces of the rear end 21 and the front end 22.
[0044]
Further, the upper clamp 31 and the lower clamp 32 are in contact with the portion where the rear end 21 of the preceding metal bar 9 and the front end 22 of the succeeding metal bar 6 are overlapped. The upper clamp 31 is supported by the upper support device 33 at an arbitrary oil pressure, and the lower clamp 32 is supported by the lower support device 34 at an arbitrary oil pressure.
[0045]
The upper cutter 26, the upper clamp 31, and the upper support device 33 are integrally formed as an upper cutter assembly 35. The lower cutter 28, the lower clamp 32, and the lower support device 34 are integrally formed as a lower cutter assembly 36.
[0046]
The upper cutter assembly 35 and the lower cutter assembly 36 are guided by the post portion of the housing 37 and supported so as to move in the thickness direction of the preceding metal bar 9 and the succeeding metal bar 6. The upper cutter assembly 35 and the lower cutter assembly 36 are configured to be able to approach and separate by a link mechanism described later, and the upper cutter assembly 35 and the lower cutter assembly 36 are sandwiched between the preceding metal bar 9 and the succeeding metal bar 6. Are approached or separated from each other. The joining process is an approaching movement, and after the joining is a separation movement.
[0047]
It is also possible to adopt a configuration in which only one of the upper blade 26 or the lower blade 28 is moved.
[0048]
As shown in FIG. 3, in the process in which the upper cutter 26 and the lower cutter 28 shear the leading metal bar 9 and the trailing metal bar 6, the leading metal bar 9 and the trailing metal bar 6 are plastically deformed at their shear surfaces. Are joined together to form an integral continuous metal bar 11.
[0049]
As shown in FIG. 4, at the position where the joining operation is completed, the upper crop 38 and the lower crop 39 remain at positions shifted vertically in the joining portions of the continuous metal bars. Thereafter, the upper blade 26 and the lower blade 28 are separated from each other and retracted until an arbitrary amount is obtained between the upper and lower blades.
[0050]
The upper crop 38 and the lower crop 39 remaining at positions shifted vertically at the time of joining are removed by the crop processing device 12 (see FIG. 1), and the continuous metal bar 11 is sent to the finishing mill 4.
[0051]
The joining of the preceding metal bar 9 and the succeeding metal bar 6 by the joining machine 10 is performed in synchronization with the travel of the metal bar. For this reason, the knife drive mechanism shown in FIGS. 5 and 6 performs the synchronous movement of the joining machine 10 and the approach and separation of the upper cutter 26 and the lower cutter 28. That is, the upper cutter 26 and the lower cutter 28 are moved according to the movement locus of the junction point of the preceding metal bar 9 and the succeeding metal bar 6.
[0052]
The blade drive mechanism will be described with reference to FIGS. FIG. 5 shows a state before joining is started, and FIG. 6 shows a state when joining is completed.
[0053]
The upper cutter 26 and the lower cutter 28 return from the position before the joining start to the position before the joining start via the joining completion position. At this time, since the metal bars to be joined are traveling in the downstream direction at the line speed, the upper cutter 26 and the lower cutter 28 move along the upper cutter trajectory and the lower cutter trajectory indicated by dotted lines while synchronizing with this progression.
[0054]
The main crankshaft 41 has two eccentric shafts with respect to the center A. The upper eccentric shaft 42 is connected to the upper cutter 26 via a link 43, and the lower eccentric shaft 44 is connected to the lower cutter 28 via a link 45. In accordance with the rotation angle of the main crankshaft 41, the upper cutter 26 and the lower cutter 28 are moved up and down (pressed or retracted).
[0055]
A tuning shaft 46 that is engaged in a synchronized relationship with the main crankshaft 41 is provided. The tuning shaft 46 is linked to the link 43 of the upper eccentric shaft 42 and the link 45 of the lower eccentric shaft 44 via a swing lever 47. is doing.
[0056]
Due to the linkage with the tuning shaft 46, the upper cutter 26 and the lower cutter 28 are moved in the traveling direction of the metal bar at a speed substantially equal to the progress of the metal bar while the upper cutter 26 and the lower cutter 28 are in contact with the metal bar. When the upper cutter 26 and the lower cutter 28 are separated from the metal bar, the upper cutter 26 and the lower cutter 28 are returned to their original positions.
[0057]
In the joining apparatus 3 described above, the upper cutter 26 and the lower cutter 28 are moved in the vertical direction according to the movement trajectory of the joining point of the preceding metal bar 9 and the succeeding metal bar 6, for example, the distance required from the joining start to the joining end. Is set to approximately 1 m or less.
[0058]
In the hot rolling facility shown in FIG. 1, the facility provided with the coil box 2 is described as an example. In the case of a hot rolling facility not provided with the coil box 2, the joining is performed after the trailing end of the trailing metal bar 6 passes through the rough mill 1 or before the leading end of the leading metal bar 9 bites into the finishing mill 4. It is set so that joining by the apparatus 3 is performed.
[0059]
That is, at the time of joining by the joining apparatus 3, it is set so that rolling of the preceding metal bar 9 and the succeeding metal bar 6 does not overlap.
[0060]
In the joining apparatus 3 described above, the cutting tool is pushed in from both sides with respect to the thickness direction of the metal bar, and the shearing surfaces are plastically flow-deformed in the shearing process to join the preceding metal bar 9 and the succeeding metal bar 6. The metal bars can be bonded with high bonding strength and in a short time.
[0061]
As a joining device, if it is a device capable of joining in a short time, a traveling shearing device 54 having a stationary blade 52 and a lifting blade 53 is applied to the traveling housing 51 as shown in FIG. Is also possible. The traveling housing 51 is traveled in synchronization with the travel of the metal bar, and the lifting / lowering blade 53 is lowered during the travel, and shearing is performed between the stationary blade 52 and the preceding metal bar 9 and the succeeding metal bar 6 are joined. It is also possible.
[0062]
In this case, the distance for joining (distance from the start of joining to the end of joining) is about 10 m, for example, but joining by shearing is possible with an extremely simple apparatus configuration.
[0063]
In the hot rolling facility shown in FIG. 1, the distance from the start of joining to the end of joining in the joining device 3 is set to about 1 m or less. Even when the traveling shearing device 54 shown in FIG. 7 is applied, the distance from the start of joining to the end of joining is about 10 m. That is, a joining device that joins the rear end of the preceding metal bar 9 and the front end of the succeeding metal bar 6 while the metal bar is traveling is arranged on the upstream side of the finishing mill 4. Is set to 15 m or less.
[0064]
Further, the hot rolling facility shown in FIG. 1 includes a finishing mill 4 that performs finish rolling of a metal bar fed from the coil box 2, and a distance S1 between the coil box 2 and the finishing mill 4 is set to 70 m or less. Yes. A joining device 3 is disposed between the coil box 2 and the finishing mill 4 to join the leading end of the preceding metal bar 9 and the trailing end of the trailing metal bar 6 while the metal bar is traveling.
[0065]
Generally, in a hot rolling facility provided with a rough mill 1 and a finishing mill 4, the rear end of a metal bar is caught in the finishing mill 4 after passing through the rough mill 1. For this reason, in the existing equipment (batch rolling), the distance between the rough mill 1 and the finishing mill 4 is 90 m to 160 m.
[0066]
In the hot rolling facility shown in FIG. 1, since the distance S1 between the coil box 2 and the finishing mill 4 is set to 70 m or less, the rough mill 1 and the finishing mill 4 are installed at a distance of 110 m to 160 m. It is possible to apply the joining device 3 to the existing equipment that is used, and to make a hot rolling equipment capable of continuous rolling.
[0067]
For example, when the rough mill 1 is composed of 1 to 3 stages, reverse rolling may be performed in the final stage of the coarse mill 1. If the distance from the coarse mill 1 to the coil box 2 is shorter than the length of the metal bar in the final pass, it will interfere with the wound coil as the preceding material. For this reason, the distance from the last stage of the rough mill 1 to the coil box 2 is, for example, about 40 m.
[0068]
In the hot rolling facility of the present embodiment, the distance S1 between the coil box 2 and the finishing mill 4 is set to 70 m or less, so the distance from the final stage of the coarse mill 1 to the coil box 2 is, for example, about 40 m. Even if secured, the present invention can be applied to existing facilities having a distance between the rough mill 1 and the finishing mill 4 of 110 m. That is, the distance between the coarse mill 1 and the coil box 2 is set to 40 m or more.
[0069]
If the distance S1 between the coil box 2 and the finishing mill 4 is 70 m or less and can be installed at about 50 m, the apparatus can be applied even to a facility in which the distance between the rough mill 1 and the finishing mill 4 is 90 m.
[0070]
Further, in the hot rolling facility shown in FIG. 1, a joining device 3 that joins the leading end of the preceding metal bar 9 and the trailing end of the succeeding metal bar 6 while the metal bar is traveling is disposed upstream of the finishing mill 4. The joining apparatus 3 is set so that joining is started at a distance S2 before the finishing mill 4 and joining is finished at a distance S3 before the finishing mill 4. The distance S2 is set to a range of 55 m or less, and the minimum value of the distance S3 is set to a range of 15 m.
[0071]
It is an object of the present invention to enable continuous rolling to be applied to most rolling equipment including rolling equipment where the distance between the rough mill 1 and the finishing mill 4 is short. For this purpose, the distance between the rough mill 1 and the finishing mill 4 needs to be accommodated in an equipment having a distance of 90 m to 160 m. If the distance between the coil box 2 and the finishing mill 4 (S1 in FIG. 1) is 70 m or less, Since a space of about 40 m is required at the time of 1st stage reverse, it can be applied to equipment having a distance between the rough mill 1 and the finishing mill 4 of 110 m to 160 m. In particular, if the distance between the coil box 2 and the finishing mill 4 (S1 in FIG. 1) can be set to 50 m, it can be applied as a continuous rolling equipment to equipment having a distance between the rough mill 1 and the finishing mill 4 of 90 m. .
[0072]
According to Non-Patent Document 1 described above, a total of 16 mill layouts are shown. There are 11 cases in which the distance between the final stage of the coarse mill and the finishing mill is 110 m to 160 m, and about 70% is included in this range. If continuous rolling can be applied to equipment having a distance of 110 m to 160 m between the final stage of the rough mill and the finishing mill, continuous rolling equipment can be used in most existing equipment.
[0073]
The reason why the distance between the final stage of the coarse mill 1 and the coil box 2 is set to 40 m or more is as follows.
[0074]
Assuming that the thickness of the metal bar on the entry side of the finishing mill 4 as a standard metal bar is 32 mm, for example, and the weight per unit width of the metal bar is 18 kg / mm, for example, the length L of the metal bar is ,
L = 18 / (32 × 7.85 × 10 ^-6 ) = 71.7 × 10 ³ = 71.7m
It becomes. Here, 7.85 × 10 ^-6 kg / mm ² Is the specific gravity of the metal bar.
[0075]
The thickness t1 of the metal bar on the entry side of the pass before the final pass of the coarse mill 1 is 30% when the rolling reduction of the final pass of the coarse mill 1 and the pass before the pass is 30%.
t1 × (1-0.3) (1-0.3) = 32
Therefore, t1 = 65.3
At this time,
The length of the metal bar is 71.7 × (32 / 65.3) = 35.1 m <40 m
It becomes.
Therefore, if the distance between the final stage of the coarse mill 1 and the coil box 2 is 40 m or more, avoid the interference of the metal bar on the entry side of the path immediately before the final pass of the coarse mill 1 with the coil box 2. Can do.
[0076]
When the final stage of the coarse mill 1 performs only one pass in the direction of the finishing mill 4, the distance from the coil box 2 to the final stage of the coarse mill 1 and the coil box 2 is not limited to 40 m or more. It is possible to wind the subsequent metal bar with the coil box 2 while roughly rolling the subsequent metal bar without interfering with the preceding metal bar being unwound.
[0077]
In the joining apparatus 3, the reason why the distance from the start of joining to the end of joining (S5 in FIG. 1) is set to 15 m or less is as follows.
[0078]
According to Non-Patent Document 1 described above, a crop shear exists before the rolling mill (F1) in the foremost row of the finishing mill. In most cases, the distance between F1 and the crop shear is 10 m or less. Therefore, in order to secure this space, it is necessary to set the distance (S3 in FIG. 1) between the joining end position and the finishing mill 4 (F1) to 10 m or more. Considering the width of the crop shear device and the space of the crop processing device 12, it is necessary to secure a distance (S3 in FIG. 1) between the joining end position and the finishing mill 4 (F1) at least 15 m.
[0079]
Further, as shown in FIG. 1, there are cases where a leveler 14, an edge heater 16, and a bar heater 17 are required in terms of equipment. Each of these facilities has its own size, but it can be installed if there is a maximum space of 25 m.
[0080]
It is considered that the distance from the coil box 2 to the start of joining (S4 in FIG. 1) is required to be at least 15 m, that is, after the preceding metal bar completes unwinding, it starts unwinding the succeeding metal bar. When the metal bars are caught up and superposition is required, it is necessary to increase the speed of the succeeding metal bars for superposition.
[0081]
Assuming that the start of unwinding of the trailing metal bar is 5 seconds after the unwinding of the preceding metal bar is completed, when the advance speed of the preceding metal bar is 70 m / min,
(70/60) × 5 = 5.83m
proceed.
[0082]
The relationship between the preceding metal bar and the following metal bar is as shown in FIG. 8, where the horizontal axis is the elapsed time of 0 sec and the horizontal axis is the distance from the coil box winding center. I can organize. In the figure, the solid line indicates the rear end position of the preceding metal bar, and the broken line indicates the front end position of the subsequent metal bar.
[0083]
When the unwinding speed of the preceding metal bar is 150 m / min,
The tip position (dashed line) of the trailing metal bar is
y = 2.5x
And
The rear end position (solid line) of the preceding metal bar is
y = 1.17x + 5.83.
[0084]
The intersection of the rear end position (broken line) of the trailing metal bar and the rear end position (solid line) of the preceding metal bar is (4.38, 11.0), and 11.0 m from the winding center of the coil box 2 The leading edge of the trailing metal bar catches up with the trailing edge of the leading metal bar. When superposed and joined, a moving distance is required for this, but joining can be started at least 15 m away from the winding center of the coil box 2.
[0085]
From the above, the distance from the coil box 2 to the start of joining (S4 in FIG. 1) requires 15 m or more (corresponding to No. 2 in FIG. 9).
[0086]
9, the distance between the rough mill and the finishing mill, the distance S1 between the coil box 2 and the finishing mill 4, the distance S2 between the joining start point and the finishing mill 4, the distance S3 between the joining end point and the finishing mill 4, The table of the example of a combination about distance S4 of the coil box 2 and a joining start point and distance S5 of a joining start point and a joining end point is shown.
[0087]
No. in the figure. In condition 6, since the distance S4 between the coil box 2 and the joining start point is less than 15 m, the layout does not hold and the evaluation is x. Other No. 1, No. 1 2, no. 3, No. 4, no. 5, no. Since all 7 have a layout, the evaluation is “good”. No. In No. 7, the distance between the coarse mill and the finishing mill is 90 m, and the distance between the coil box 2 and the finishing mill is 70 m, so the distance between the coarse mill and the coil box 2 is 20 m, and the final stage of the coarse mill is finished. This layout can be established when only one pass is performed in the mill direction.
[0088]
In FIG. 1, it may be considered that the crop shear 15 is omitted. The crop shear 15 is used for cutting the front and rear ends of the metal bar when the finish rolling is intermittently performed without joining the metal bar.
[0089]
Here, when the crop shear 7 exists on the entry side of the joining device 3, the function of the crop shear 15 can be substituted by the crop shear 7. The cutting of the front and rear ends of the metal bar before finish rolling is unstable when the front and rear ends of the metal bar are cooled and caught in the finishing mill 4 and the bottom end is removed, in addition to the removal of the irregular crop portion at the front and rear ends. It is also performed for the purpose of avoiding rolling.
[0090]
When the joining device 3 approaches the finishing mill 4, the crop shear 7 also approaches the finishing mill 4, and the temperature drop at the front and rear ends after cutting the front and rear ends of the metal bar can be suppressed. For example, when S5 is 1 m, S3 is 15 m, S2 is 16 m, and S4 is 15 m, S1 is 31 m. If the crop shear 7 is arranged at the intermediate position of S4, the distance from the crop shear 7 to the finishing mill 4 can be about 24 m. In Non-Patent Document 1 described above, the distance between the crop shear and the finishing mill is a maximum of 28.308 m, and can be within the range of results.
[0091]
If the crop shear 15 can be omitted, the edge heater 16 and the bar heater 17 can be installed between the joining device 3 and the finishing mill 4 under the condition that S3 is 15 m.
[0092]
Further, in the hot rolling facility shown in FIG. 1, the maximum value of the traveling speed of the metal bar on the entry side of the finishing mill 4 is set to 70 m / min or more.
[0093]
FIG. 10 shows the relationship between the traveling speed of the metal bar on the entry side of the finishing mill 4 (finishing mill entry-side bar speed) and the finished sheet thickness after rolling in the finishing mill 4. Here, the solid line indicates the upper limit of the finishing mill entry side bar speed, and the alternate long and short dash line indicates the lower limit of the finishing mill entry side bar speed. Due to equipment restrictions such as the capacity of the heating furnace, narrow materials are close to a solid line, and wide materials are close to an alternate long and short dash line.
[0094]
As shown by the broken line in FIG. 10, when the finishing mill entry side bar speed is 60 m / min, rolling with a finished sheet thickness with a solid line of 2.5 mm and a dashed line of 6.0 mm or less can be continuous. When the finishing mill entry-side bar speed is 70 m / min, rolling with a finished sheet thickness of 4.0 mm for the solid line and 12.0 mm or less for the alternate long and short dash line can be continued.
[0095]
Thus, by setting the maximum value of the finishing mill entry-side bar speed to 70 m / min or more, continuous operation is possible for a wide range of finished sheet thicknesses.
[0096]
【The invention's effect】
The hot rolling equipment of the present invention according to claim 1
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining device is set to start joining within a maximum of 55 m before the finishing mill and is set to finish joining at least 15 m before the finishing mill. The joining range is properly defined.
[0097]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0098]
The hot rolling equipment of the present invention according to claim 2
Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining apparatus is set to start joining within a maximum of 55 m before the finishing mill and set to finish joining at least 15 m before the finishing mill,
The joining range by the short-time joining device is properly defined, and the range of existing equipment is properly prescribed even when a short-time joining device is additionally installed.
[0099]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0100]
The hot rolling equipment of the present invention according to claim 3
Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A coil box is installed between the roughing mill and the finishing mill, and the finishing mill performs finish rolling of the metal sheet fed from the coil box,
The distance between the coil box and the finishing mill is set to 70 m or less,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining apparatus is set to start joining within a maximum of 55 m before the finishing mill and set to finish joining at least 15 m before the finishing mill,
The range of joining by the short-time joining device is properly defined, and even when a short-time joining device is additionally installed, the range of existing equipment is properly prescribed, and the proper arrangement of the coil box and the finishing mill is prescribed. .
[0101]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0102]
The hot rolling facility of the present invention according to claim 4 is:
In the hot rolling equipment according to any one of claims 1 to 3,
Since the maximum value of the traveling speed of the metal plate on the entry side of the finishing mill is set to 70 m / min or more,
The traveling speed of the metal plate on the entry side of the finishing mill is properly defined.
[0103]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0104]
The hot rolling facility of the present invention according to claim 5 is:
In the hot rolling equipment according to any one of claims 1 to 4,
Since the distance from the start of joining to the end of joining is set to 15 m or less in the joining device,
Proper placement of the joining device is defined.
[0105]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0106]
The hot rolling equipment of the present invention according to claim 6 is:
In the hot rolling facility according to claim 3,
Since the distance between the rough rolling mill and the coil box is set to 40m or more,
From rolling mill to coil box is properly defined.
[0107]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0108]
The hot rolling equipment of the present invention according to claim 7 is:
In the hot rolling equipment according to any one of claims 1 to 4,
For the short-time bonding apparatus, the distance required from the start of bonding to the end of bonding is set to about 1 m or less
The distance required from the start of bonding to the end of bonding of the single-time bonding apparatus is properly defined.
[0109]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by an appropriate apparatus arrangement. It becomes possible.
[0110]
The hot rolling equipment of the present invention according to claim 8 is:
In the hot rolling facility according to any one of claims 1 or 2,
At the time of joining with a short time joining device, it is set so that the rolling of the preceding metal plate and the succeeding metal plate does not overlap,
In continuous rolling, it is defined so as to eliminate the simultaneous biting state in the rough rolling mill and finish rolling during joining.
[0111]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0112]
The hot rolling equipment of the present invention according to claim 9 is:
In the hot rolling facility according to any one of claims 5 or 7,
A superimposing means for superimposing the rear end of the preceding metal plate and the front end of the succeeding metal plate is provided, and the short-time joining device pushes from both sides of the overlapping portion of the metal plate and joins them while shearing. Since it is a joining mechanism with a shearing blade,
It is defined that the shearing surfaces are joined by plastic flow deformation in the shearing process between the rear end of the preceding metal plate and the front end of the subsequent metal plate.
[0113]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[0114]
The hot rolling equipment of the present invention according to claim 10 is:
In the hot rolling equipment according to any one of claims 1 to 9,
Because at least one of the bar heater or edge heater is placed between the short-time joining device and the finishing mill,
Proper placement of equipment with bar heaters or edge heaters is defined.
[0115]
For this reason, it is possible to connect the preceding metal plate and the following metal plate while the metal plate is traveling according to the appropriate arrangement state of the apparatus, and to provide a hot rolling facility that enables continuous rolling by the appropriate apparatus arrangement. It becomes possible.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a hot rolling facility according to an embodiment of the present invention.
FIG. 2 is a schematic configuration diagram of a bonding machine 10;
FIG. 3 is a schematic configuration diagram of the bonding machine 10;
FIG. 4 is a conceptual diagram of a joining completed state.
FIG. 5 is a conceptual diagram of a blade drive mechanism.
FIG. 6 is a conceptual diagram of a blade drive mechanism.
FIG. 7 is a conceptual diagram of a bonding apparatus according to another embodiment.
FIG. 8 is a graph showing a change in the position of a metal bar.
FIG. 9 is a table showing a layout example.
10 is a graph showing the relationship between the traveling speed of the metal bar on the entry side of the finishing mill 4 and the finished plate thickness in the finishing mill 4. FIG.
[Explanation of symbols]
1 Rough rolling mill (rough mill)
2 Coil box
3 Joining equipment
4 Finishing mill (finishing mill)
5 Downcoiler
6 trailing metal bar
7 Cropshire
8 Stacking device
9 Leading metal bar
10 Joiner
11 Metal bar
12 Crop processing device
13,14 Leveler
15 Cropshire
16 Edge heater
17 Bar heater
21 Rear end
22 Tip
25, 27 protrusion
26 Upper knife
28 Lower knife
31 Upper clamp
32 Lower clamp
33 Upper support device
34 Lower support device
35 Upper blade assembly
36 Lower blade assembly
37 Housing
38 Top crop
39 Crop below
41 Main crankshaft
42 Upper eccentric shaft
43,45 links
44 Lower eccentric shaft
46 Tuning axis
47 Swing lever
51 Traveling housing
52 Fixed blade
53 Lifting blade
54 Traveling shearing device

Claims (10)

A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining apparatus is set to start joining within a maximum of 55 m before the finishing mill and is set to finish joining at least 15 m before the finishing mill. Facility. Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining apparatus is set to start joining within a maximum of 55 m before the finishing mill and is set to finish joining at least 15 m before the finishing mill. Facility. Rough rolling mill and finish rolling mill are installed at a distance of 90m to 160m,
A coil box is installed between the roughing mill and the finishing mill, and the finishing mill performs finish rolling of the metal sheet fed from the coil box,
The distance between the coil box and the finishing mill is set to 70 m or less,
A short-time joining device that joins the rear end of the preceding metal plate and the front end of the subsequent metal plate in a short time while the metal plate is running on the upstream side of the finishing mill,
The short-time joining apparatus is set to start joining within a maximum of 55 m before the finishing mill and is set to finish joining at least 15 m before the finishing mill. Facility. In the hot rolling equipment according to any one of claims 1 to 3,
A hot rolling facility characterized in that the maximum value of the traveling speed of the metal sheet on the entry side of the finishing mill is set to 70 m / min or more. In the hot rolling equipment according to any one of claims 1 to 4,
The short-time joining apparatus is a hot rolling facility characterized in that the distance from the start of joining to the end of joining is set to 15 m or less. In the hot rolling facility according to claim 3,
A hot rolling facility characterized in that the distance between the rough rolling mill and the coil box is set to 40 m or more. In the hot rolling equipment according to any one of claims 1 to 4,
The short-time joining apparatus is a hot rolling facility characterized in that the distance required from the start of joining to the end of joining is set to about 1 m or less. In the hot rolling facility according to any one of claims 1 or 2,
A hot rolling facility characterized in that the rolling of the preceding metal plate and the succeeding metal plate is set so as not to overlap at the time of joining with a short-time joining device. In the hot rolling facility according to any one of claims 5 or 7,
It is provided with a superimposing means that superimposes the rear end of the preceding metal plate and the front end of the succeeding metal plate, and the short time joining device pushes from both sides of the overlapping portion of the metal plate and joins it while shearing. A hot rolling facility characterized by being a joining mechanism having a shearing blade. In the hot rolling equipment according to any one of claims 1 to 9,
A hot rolling facility characterized in that at least one of a bar heater and an edge heater is disposed between a joining device and a finishing mill.

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