JP3684808B2 - Pinch roll device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pinch roll device.
[0002]
[Prior art]
The entrance side of the down coiler constituting the rolling equipment is provided with a pinch roll device for setting the direction of the strip fed to the down coiler to an appropriate state and for applying tension to the strip. ing.
[0003]
FIG. 9 shows an example of a conventional pinch roll device. This pinch roll device includes a lower roll 2 and an upper roll 3 extending in the width direction of the strip 1 fed from the upstream side A to the downstream side B in the conveying direction, and a down coiler. A fixed frame 4 facing the width direction of the strip 1 on the entry side of the strip and supporting the lower roll 2, a swing arm 5 rotatably attached to the upper portion of the fixed frame 4 and supporting the upper roll 3, A lifting cylinder 6 as lifting means for the upper roll 3 with respect to the roll 2 and a worm jack 7 as gap adjusting means for both rolls 2 and 3 are provided.
[0004]
A lower axle box 8 is fitted to both end journal portions of the lower roll 2, and an upper axle box 9 is fitted to both end journal portions of the upper roll 3.
[0005]
The fixed frame 4 has an upstream columnar portion 10 that is positioned closer to the upstream side A in the transport direction and extends upward, and a downstream columnar portion 11 that is positioned closer to the downstream side B in the transport direction and extends upward.
[0006]
The lower shaft box 8 described above is inserted into a recessed portion 12 formed between both columnar portions 10 and 11 and fastened to the fixed frame 4 by bolts. The roll 2 is positioned below the plate line of the strip 1.
[0007]
The base end portion of the swing arm 5 is pivotally supported on the upper end of the upstream columnar portion 10 of the fixed frame 4 by a support shaft 13 extending substantially horizontally in the width direction of the strip 1.
[0008]
A shaft box seat 14 is fixed to an intermediate portion of the swing arm 5 so as to be positioned above the lower shaft box 8 when the tip of the swing arm 5 faces the downstream side B in the transport direction.
[0009]
The above-described upper shaft box 9 is inserted into the shaft box seat 14 and fastened to the shaft box seat 14 with bolts, and the upper roll 3 is placed between the left and right swing arms 5 in the passage plate line of the strip 1. It is located on the upper side.
[0010]
In the lifting cylinder 6, a cylinder body 15 is pivotally supported by a pin 16 on a bracket 16 provided on the fixed frame 4, and a piston rod 18 is pivotally supported by a pin 19 on a portion near the tip of the swing arm 5.
[0011]
When fluid pressure is applied to the rod side fluid chamber of the lifting cylinder 6, the tip of the swing arm 5 is biased downward, and the upper roll 3 comes close to the lower roll 2.
[0012]
When fluid pressure is applied to the head side fluid chamber of the lifting cylinder 6, the tip of the swing arm 5 is urged upward, and the upper roll 3 is separated from the lower roll 2.
[0013]
The worm jack 7 is attached to a support base 21 provided on the fixed frame 4 so that the elevating member 20 is located on the upper side and the elevating member 20 comes into contact with the tip of the swing arm 5 from below.
[0014]
In the pinch roll device shown in FIG. 9, the vertical position of the elevating member 20 of the worm jack 7 is appropriately adjusted so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1, so Is applied to the rod side fluid chamber of the lifting cylinder 6, the upper roll 3 is brought close to the lower roll 2, and the strip 1 sent from the upstream A side to the downstream B side in the transport direction by both rolls 2, 3 has a plate thickness Grip in the direction and guide the strip 1 to the downcoiler.
[0015]
When replacing the existing upper roll 3 and lower roll 2 with new ones, the pin 19 connecting the swing arm 5 and the piston rod 18 of the lifting cylinder 6 is pulled out, and is shown by a two-dot chain line in FIG. As described above, the swing arm 5 is rotated by the crane so that the upper axle box 9 faces upward, and the bolt fastening of the upper axle box 9 and the lower axle box 8 with respect to the axle box seat 14 and the fixed frame 4 is released.
[0016]
Next, the existing upper roll 3 and lower roll 2 are replaced with new ones together with the upper axle box 9 and the lower axle box 8 by a crane, and the upper axle box 9 and the lower axle box 8 are replaced with the axle box seat 14 and the fixed frame 4. Tighten the bolt to
[0017]
Further, the swing arm 5 is rotated by the crane so that the upper axle box 9 faces downward, and the swing arm 5 and the piston rod 18 of the lifting cylinder 6 are connected by the pin 19.
[0018]
Further, instead of rotating the swing arm 5 as described above, the swing arm 5 is removed from the fixed frame 4, and the upper roll 3 and the lower roll 2 are replaced with new ones together with the upper axle box 9 and the lower axle box 8. It may be replaced.
[0019]
10 and 11 show another example of a conventional pinch roll device. In the figure, the portions denoted by the same reference numerals as those in FIG. 9 represent the same items.
[0020]
This pinch roll device has a lifting beam 22 extending in the width direction of the strip 1, a lower roll 2 and an upper roll 3, and faces the width direction of the strip 1 on the entrance side of the down coiler, and the lower roll 2 and the upper roll 3 A supporting housing 23 and a lifting cylinder 24 as lifting means for the upper roll 3 with respect to the lower roll 2 are provided.
[0021]
The lower end portion of the lifting beam 22 has a guide portion 25 that protrudes in the transport direction upstream A side and downstream B side when viewed from the side of the plate line of the strip 1 and extends in the width direction of the strip 1.
[0022]
In addition, pistons 27 having pressing members 26 extending downward are mounted at both ends of the lifting beam 22 so as to be able to move up and down. When hydraulic pressure is applied to the space above the piston 27 inside the lifting beam 22, the pressing members 26 is pushed downward.
[0023]
A lower shaft box 28 is fitted to both end journal portions of the lower roll 2, and an upper shaft box 29 is fitted to both end journal portions of the upper roll 3.
[0024]
In the upper part of the upper shaft box 29, the space 30 in which the pressing member 26 is accommodated, the upstream side A and the downstream side B of the space 30 in the conveying direction, and the guide part 25 of the lifting beam 22 are contacted from above. The upper shaft box 29 can be moved in the width direction of the strip 1 along the lifting beam 22.
[0025]
The housing 23 includes an upstream columnar portion 32 positioned closer to the upstream side A in the transport direction, a downstream columnar portion 33 positioned closer to the downstream side B in the transport direction, and a beam-shaped portion 34 connecting the upper ends of both the columnar portions 32 and 33. And have.
[0026]
The lower shaft box 28 described above is inserted into the lower portion of the window portion 35 formed between the columnar portions 32 and 33 and is fixed to the housing 23 by the cotter 36. The lower roll 2 is positioned below the plate line of the strip 1.
[0027]
The upper shaft box 29 is inserted in the vicinity of the upper portion of the window portion 35 so as to slide up and down.
[0028]
In the lifting cylinder 24, a cylinder body 37 is attached to a bracket 38 provided on the beam-like portion 34 of the housing 23, and a piston rod 39 is pivotally supported by a pin 41 on a bracket 40 provided on the lifting beam 22. Yes.
[0029]
When a fluid pressure is applied to the head side fluid chamber of the lift cylinder 24, the lifting beam 22 is biased downward, and the upper roll 3 comes close to the lower roll 2.
[0030]
Further, when fluid pressure is applied to the rod side fluid chamber of the lifting cylinder 24, the lifting beam 22 is biased upward, and the upper roll 3 is separated from the lower roll 2.
[0031]
Further, a worm jack (not shown) for regulating the lowered position of the lifting beam 22 is interposed between the lifting beam 22 and the housing 23.
[0032]
In the pinch roll device shown in FIGS. 10 and 11, the vertical position of the lifting beam 22 is appropriately adjusted by a worm jack so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1. A fluid pressure is applied to the head side fluid chamber of the lifting / lowering cylinder 24, the upper roll 3 is brought close to the lower roll 2, and the strip 1 sent from the upstream A side to the downstream B side in the transport direction by both rolls 2, 3 Holding the strip 1 in the thickness direction, the strip 1 is guided to the down coiler.
[0033]
Also, hydraulic pressure is applied to the space above the piston 27 inside the lifting beam 22 and the upper shaft box 29 is urged downward by the pressing member 26, so that the upper shaft box 29 and the bearing, and the bearing and the upper The vertical displacement of the rotation center of the upper roll 3 due to the clearance of the journal portion of the roll 3 is suppressed.
[0034]
When the existing upper roll 3 and lower roll 2 are replaced with new ones, the roll extraction operation is performed using a jig 42 called a C hook.
[0035]
The jig 42 includes a lower fitting portion 43 that is externally fitted to the journal portion of each of the rolls 2 and 3, and an upper support portion 44 that is positioned above the lower fitting portion 43 and is suspended and supported substantially horizontally by a crane. And an intermediate portion 45 that continues from one end of the upper support portion 44 to the lower fitting portion 43.
[0036]
When the upper roll 3 is extracted from the housing 23, fluid pressure is applied to the rod-side fluid chamber of the lifting / lowering cylinder 24 so that the upper roll 3 is separated from the lower roll 2.
[0037]
Next, the jig 42 is suspended by a crane, the lower fitting portion 43 is externally fitted to one journal portion of the upper roll 3, the jig 42 is slightly raised by the crane, and the jig 42 is then moved to the housing 23. When the lateral movement is performed so as to separate from the upper shaft box 29, the engaging portion 31 of the upper shaft box 29 slides along the guide portion 25 of the lifting beam 22, and the upper roll 3 and the upper shaft box 29 come out of the housing 23.
[0038]
After extracting the upper roll 3 in this way, the lower roll 2 is extracted together with the lower axle box 8 by the same procedure.
[0039]
[Problems to be solved by the invention]
However, in the pinch roll device shown in FIG. 9, when the rolls 2 and 3 are replaced, the swing arm 5 is rotated or the swing arm 5 is attached to and detached from the fixed frame 4. .
[0040]
Further, in the pinch roll device shown in FIGS. 10 and 11, devices such as the lifting cylinder 24 are attached to the upper portion of the housing 23 so as to be positioned above the upper roll 3. In order to prevent interference with the upper support part 44 of the tool 42, the intermediate part 45 must be lengthened, thereby making the jig 42 large and difficult to handle.
[0041]
The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a pinch roll device capable of easily performing a roll exchanging operation.
[0042]
[Means for Solving the Problems]
In order to achieve the above object, in the pinch roll apparatus according to claim 1 of the present invention, the lower roll and the upper roll extending in the width direction of the strip fed from the upstream side to the downstream side in the transport direction, and both end journals of the lower roll A fixed frame that supports the lower axle box fitted to the part, and a swing arm whose base end is pivotally supported by the stationary frame and can abut against the upper axle box fitted to both end journal parts of the upper roll from above And a lifting cylinder capable of urging the swing arm downward, and a balance cylinder capable of urging the upper shaft box upward or downward.
[0043]
In the pinch roll device according to claim 2 of the present invention, the lower roll and the upper roll extending in the width direction of the strip sent from the upstream side to the downstream side in the transport direction, and both end journal portions of the lower roll are fitted. A fixed frame for supporting the lower axle box, a swing arm whose base end is pivotally supported by the fixed frame, a support block fixed to the swing arm and positioned above the lower axle box, A lifting beam that is movably mounted and is fitted to both end journal portions of the upper roll so as to be slidable in the width direction of the strip, and a lifting cylinder that urges the swing arm downward And a balance cylinder capable of urging the upper shaft box upward or downward.
[0044]
In the pinch roll device according to claim 3 of the present invention, in addition to the configuration of the pinch roll device according to claim 1 of the present invention, a balance cylinder is attached to the fixed frame.
[0045]
In the pinch roll device according to claim 4 of the present invention, in addition to the configuration of the pinch roll device according to claim 2 of the present invention, a balance cylinder is interposed between the support block and the lifting beam.
[0046]
In the pinch roll device according to claim 5 of the present invention, in addition to the configuration of the pinch roll device according to any one of claims 1 to 4 of the present invention, the lifting cylinder is arranged below the swing arm. doing.
[0047]
In the pinch roll device according to claim 6 of the present invention, in addition to the configuration of the pinch roll device according to any one of claims 1 to 4 of the present invention, an elevating cylinder is disposed above the swing arm. ing.
[0048]
In the pinch roll device according to claim 7 of the present invention, in addition to the configuration of the pinch roll device according to any one of claims 1 to 6 of the present invention, a cylinder with a position sensor is used for the lifting cylinder. Yes.
[0049]
The pinch roll device according to claim 8 of the present invention has a swing arm rotational position setting means in addition to the configuration of the pinch roll device according to any of claims 1 to 6 of the present invention. ing.
[0050]
In the pinch roll device according to claim 9 of the present invention, in addition to the configuration of the pinch roll device according to any one of claims 1 to 8, the lower shaft box is displaced in the strip passing direction. It is configured to be able to.
[0051]
In any of the pinch roll apparatuses according to claims 1 to 9 of the present invention, the swing arm is urged downward by the lift cylinder while the upper shaft box is urged upward or downward by the balance cylinder. And hold the strip with both the lower roll and the upper roll.
[0052]
Further, the swing arm is rotated upward by the lifting cylinder, and the existing upper roll and lower roll are replaced with new ones.
[0053]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0054]
1 and 2 show a first example of an embodiment of a pinch roll device according to the present invention. This pinch roll device has a width direction of a strip 1 fed from the upstream side A to the downstream side B in the conveying direction. A lower roll 2 and an upper roll 3 that extend in the direction of the width of the strip 1 on the entry side of the down coiler, a balance cylinder 47 attached to the fixed frame 46, a swing arm 48, a lifting cylinder 49, And a warm jack 50.
[0055]
A lower shaft box 51 is fitted to both end journal portions of the lower roll 2, and an upper shaft box 52 is fitted to both end journal portions of the upper roll 3.
[0056]
The fixed frame 46, the upstream columnar portion 54 that is positioned closer to the upstream side A of the recessed portion 53 in the conveying direction and extends upward, and the upper side that is positioned closer to the downstream side B of the recessed portion 53 in the conveying direction. And a downstream columnar portion 55 extending.
[0057]
The lower shaft box 51 described above is inserted into the recessed portion 53 and is a cotter inserted between the lower shaft box 51 and the recessed portion 53 or a cylinder that presses the lower shaft box 51 against the wall surface of the recessed portion 53. The lower roll 2 is positioned below the plate line of the strip 1 between the left and right fixed frames 46.
[0058]
The balance cylinder 47 is attached to the fixed frame 46 so as to be located on the downstream side B in the transport direction of the upstream columnar portion 54 and on the upstream side A in the transport direction of the downstream columnar portion 55 and with the piston rod facing upward. .
[0059]
In the upper shaft box 52 described above, the piston rod of the balance cylinder 47 comes into contact with the overhanging portion 52a formed on the upper shaft box 52 that protrudes from the upstream side A and the downstream side B in the conveying direction. The upper roll 3 is mounted on the fixed frame 46 so that the upper roll 3 is positioned on the upper side of the sheet passing line of the strip 1 between the left and right fixed frames 46.
[0060]
When a fluid pressure is applied to the head side fluid chamber of the balance cylinder 47, the upper shaft box 52 is biased upward.
[0061]
The base end portion of the swing arm 48 is pivotally supported on the upper end of the upstream columnar portion 54 of the fixed frame 46 by a support shaft 56 extending substantially horizontally in the width direction of the strip 1.
[0062]
Roller bearings or bushes are interposed at the pivot portions between the support shaft 56 and the swing arm 48.
[0063]
Further, a stopper 57 capable of contacting the upper end surface of the downstream columnar portion 55 of the fixed frame 46 is provided at the tip of the swing arm 48.
[0064]
In the lifting / lowering cylinder 49, a cylinder body 58 is pivotally supported by a pin 59 on a bracket 59 provided on the fixed frame 46, and a piston rod 61 is pivotally supported by a pin 62 on a portion near the tip of the swing arm 48.
[0065]
The worm jack 50 is attached to the swing arm 48 so that the elevating member 63 is positioned on the lower side and the upper end surface of the upper shaft box 52 can come into contact with the elevating member 63.
[0066]
When fluid pressure is applied to the rod-side fluid chamber of the lift cylinder 49, the tip of the swing arm 48 is biased downward, and the lift member 63 of the worm jack 50 presses the upper shaft box 52. Become.
[0067]
Further, when fluid pressure is applied to the head side fluid chamber of the lift cylinder 49, the tip of the swing arm 48 is biased upward, and the lift member 63 of the worm jack 50 is separated from the upper shaft box 52. Become.
[0068]
In the pinch roll device shown in FIGS. 1 and 2, the vertical position of the elevating member 63 of the worm jack 50 is appropriately adjusted so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1. The fluid pressure is applied to the rod-side fluid chamber of the lifting / lowering cylinder 49 and the upper shaft box 52 is urged downward to bring the upper roll 3 close to the lower roll 2, and both the rolls 2 and 3 upstream in the conveying direction. The strip 1 delivered from the A side to the downstream B side is clamped in the thickness direction, and the strip 1 is guided to the down coiler.
[0069]
At this time, fluid pressure is applied to the head side fluid chamber of the balance cylinder 47 to urge the upper shaft box 52 upward, and the clearance between the upper shaft box 52 and the bearing, the journal portion of the bearing and the upper roll 3, etc. The vertical displacement of the rotation center of the upper roll 3 due to the above is suppressed.
[0070]
When replacing the existing upper roll 3 and lower roll 2 with new ones, fluid pressure is applied to the head-side fluid chamber of the lifting cylinder 49, and the swing arm 48 is rotated about the support shaft 56, The swing arm 48 is moved away from the upper shaft box 52, the application of fluid pressure to the balance cylinder 47 is interrupted, and the piston rod of the balance cylinder 47 is lowered to move the upper roll 3 together with the upper shaft 3 Let go down.
[0071]
Next, the upper roll 3 and the lower roll 2 are sequentially extracted in the axial direction using a jig having substantially the same structure as the jig 42 described above (see FIG. 11).
[0072]
As described above, in the pinch roll device shown in FIGS. 1 and 2, the upper shaft box 52 fitted to the journal portion of the upper roll 3 is supported by the balance cylinder 47 attached to the fixed frame 46, and the lifting cylinder 49 is moved. Since the swing arm 48 is urged downward by this to restrain the upper shaft box 52 to the fixed frame 46, the upper roll 3 can be replaced only by rotating the swing arm 48 upward by the lifting cylinder 49. Can be.
[0073]
Further, since the lifting cylinder 49 that is the lowering means of the upper roll 3 does not extend in the vertical direction above the upper roll 3, the apparatus height at the roll support portion is reduced, and the jig used for the roll extraction work can be reduced in size. The jig can be handled easily.
[0074]
3 and 4 show a second example of the embodiment of the pinch roll device of the present invention. In the figure, the parts denoted by the same reference numerals as those in FIGS. 1 and 2 represent the same thing.
[0075]
In this pinch roll device, a swing arm 64 and a worm jack 65 are used instead of the swing arm 48 and the worm jack 50 shown in FIGS. 1 and 2.
[0076]
The base end portion of the swing arm 64 is pivotally supported on the upper end of the upstream columnar portion 54 of the fixed frame 46 by a support shaft 56 extending substantially horizontally in the width direction of the strip 1.
[0077]
Roller bearings or bushes are interposed at the pivot portions between the support shaft 56 and the swing arm 64.
[0078]
Further, a pressing member 66 is provided at an intermediate portion of the swing arm 64 so as to be able to contact the upper end surface of the upper shaft box 52.
[0079]
Further, the piston rod 61 of the lifting cylinder 49 is pivotally supported by a pin 62 at the tip of the swing arm 64.
[0080]
When fluid pressure is applied to the rod side fluid chamber of the lift cylinder 49, the tip of the swing arm 64 is biased downward, and the pressing member 66 presses the upper shaft box 52.
[0081]
Further, when fluid pressure is applied to the head side fluid chamber of the lifting cylinder 49, the tip of the swing arm 64 is biased upward, and the pressing member 66 is separated from the upper shaft box 52.
[0082]
The worm jack 65 has a columnar portion 55 on the downstream side of the fixed frame 46 so that the elevating member 67 is positioned on the upper side and the lower end surface of the shock absorber 68 provided at the tip of the swing arm 64 can be in contact with the elevating member 67. It is attached to the top edge.
[0083]
In the pinch roll device shown in FIGS. 3 and 4, the vertical position of the lifting member 67 of the worm jack 65 is adjusted as appropriate so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1. The fluid pressure is applied to the rod-side fluid chamber of the lifting / lowering cylinder 49 and the upper shaft box 52 is urged downward to bring the upper roll 3 close to the lower roll 2, and both the rolls 2 and 3 upstream in the conveying direction. The strip 1 delivered from the A side to the downstream B side is clamped in the thickness direction, and the strip 1 is guided to the down coiler.
[0084]
At this time, fluid pressure is applied to the head side fluid chamber of the balance cylinder 47 to urge the upper shaft box 52 upward, and the clearance between the upper shaft box 52 and the bearing, the journal portion of the bearing and the upper roll 3, etc. The vertical displacement of the rotation center of the upper roll 3 due to the above is suppressed.
[0085]
When replacing the existing upper roll 3 and lower roll 2 with new ones, as in the pinch roll device shown in FIGS. The upper roll 3 is moved down together with the upper shaft box 52 by moving 64 away from the upper shaft box 52, interrupting the application of fluid pressure to the balance cylinder 47, and lowering the piston rod of the balance cylinder 47.
[0086]
Next, the upper roll 3 and the lower roll 2 are sequentially extracted in the axial direction using a jig having substantially the same structure as the jig 42 (see FIG. 11).
[0087]
Therefore, also in the pinch roll device shown in FIGS. 3 and 4, the same operational effects as the pinch roll device shown in FIGS. 1 and 2 can be obtained.
[0088]
5 and 6 show a third example of the embodiment of the pinch roll apparatus of the present invention. This pinch roll apparatus is a width direction of the strip 1 fed from the upstream side A to the downstream side B in the conveying direction. The lower roll 2 and the upper roll 3 extending in the direction of the strip, the fixed frame 69 facing the width direction of the strip 1 on the entrance side of the down coiler, the swing arm 70 attached to the fixed frame 69, the support block 71, the lifting beam 72, the balance A cylinder 73, a block urging mechanism 74, an elevating cylinder 49, and a worm jack 75 are provided.
[0089]
A lower shaft box 51 is fitted to both end journal portions of the lower roll 2, and an upper shaft box 76 is fitted to both end journal portions of the upper roll 3.
[0090]
The fixed frame 69 has a recessed portion 77 and an upstream columnar portion 78 that is located closer to the upstream side A in the transport direction of the recessed portion 77 and extends upward.
[0091]
The lower shaft box 51 described above is inserted into the recessed portion 77 and is a cotter inserted between the lower shaft box 51 and the recessed portion 77 or a cylinder that presses the lower shaft box 51 against the wall surface of the recessed portion 77. The lower roll 2 is positioned below the plate passing line of the strip 1 between the left and right fixed frames 69.
[0092]
The base end portion of the swing arm 70 is pivotally supported on the upper end of the upstream columnar portion 78 of the fixed frame 69 by a support shaft 56 extending substantially horizontally in the width direction of the strip 1.
[0093]
A roller bearing or a bush is interposed at the pivot portion between the support shaft 56 and the swing arm 70.
[0094]
The support block 71 extends from the vicinity of the proximal end portion of the swing arm 70 toward the vicinity of the distal end portion thereof, and extends downward from the proximal end portion and the distal end portion of the pressure receiving portion 79 and the pressure receiving portion 79 fixed to the swing arm 70. And a protrusion 80.
[0095]
The lifting beam 72 includes a connecting portion 81 positioned above the pressure receiving portion 79 of the swing arm 70, an elevating portion 82 extending downward from the base end portion and the distal end portion of the connecting portion 81 through the pressure receiving portion 79, and It has a guide portion 83 that protrudes from the respective lower end of each elevating portion 82 toward the lower end of the other elevating portion 82 and extends over substantially the entire length of the upper roll 3.
[0096]
The guide portion 83 of the lifting beam 72 is in contact with the engaging portion 84 formed in the above-described upper shaft box 76 from above so that it can slide in the width direction of the strip 1 along the guide portion 83. Between the left and right swing arms 70, the upper roll 3 is positioned above the sheet passing line of the strip 1.
[0097]
The balance cylinder 73 is disposed between the pressure receiving portion 79 of the support block 71 and the connecting portion 81 of the lifting beam 72 so that the piston rod faces upward.
[0098]
When fluid pressure is applied to the head side fluid chamber of the balance cylinder 73, the lifting beam 72 is biased upward with respect to the support block 71, and the engaging portion 84 of the upper shaft box 76 and the guide portion 83 of the lifting beam 72 are And the upper shaft box 76 is restrained by the lifting beam 72.
[0099]
The block urging mechanism 74 includes an elastic member such as a spring, and is provided on the fixed frame 69 so that the elastic member can urge the lower end of the protruding portion of the support block 71 upward. .
[0100]
In the lifting cylinder 49, the cylinder body 58 is pivotally supported by a pin 59 on a bracket 59 provided on the fixed frame 69, and the piston rod 61 is pivotally supported by a pin 62 at a portion near the tip of the swing arm 70.
[0101]
The worm jack 75 is attached to the fixed frame 69 so that the elevating member 85 is positioned on the upper side, and the stopper 86 of the support block 71 can come into contact with the elevating member 85.
[0102]
When fluid pressure is applied to the rod-side fluid chamber of the lift cylinder 49, the tip of the swing arm 70 is biased downward, and the stopper 86 comes into contact with the lift member 85 of the worm jack 75.
[0103]
Further, when fluid pressure is applied to the head side fluid chamber of the lift cylinder 49, the tip of the swing arm 70 is biased upward, and the stopper 86 is separated from the lift member 85 of the worm jack 75.
[0104]
In the pinch roll device shown in FIGS. 5 and 6, the vertical position of the elevating member 85 of the worm jack 75 is appropriately adjusted so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1. By applying fluid pressure to the rod-side fluid chamber of the lift cylinder 49, the upper shaft box 76 is urged downward together with the swing arm 70, the support block 71, and the lifting beam 72 to move the upper roll 3 to the lower roll 2. The two strips 2 and 3 hold the strip 1 fed from the upstream side A to the downstream side B in the transport direction with both rolls 2 and 3, and guide the strip 1 to the down coiler.
[0105]
At this time, the fluid pressure is applied to the head side fluid chamber of the balance cylinder 73 to urge the lifting beam 72 upward, and for the clearance between the guide portion 83 of the lifting beam 72 and the guide portion 83 of the upper shaft box 76. The vertical displacement of the rotation center of the upper roll 3 caused is suppressed.
[0106]
When the existing upper roll 3 and lower roll 2 are replaced with new ones, the link 87 and the upstream columnar portion 78 of the fixed frame 69 are released from the pin 89, and then the fluid pressure is increased. Applying to the head side fluid chamber, the swing arm 70 is rotated around the support shaft 56 to separate the upper roll 3 from the lower roll 2.
[0107]
Further, the application of fluid pressure to the balance cylinder 73 is interrupted, and the lifting beam 72 is lowered with respect to the support block 71, thereby releasing the restraint between the lifting beam 72 and the upper shaft box 76.
[0108]
Next, the upper roll 3 is pulled out in the axial direction so that the upper shaft box 76 slides along the lifting beam 72 using a jig having substantially the same structure as the jig 42 (see FIG. 11). The roll 2 is pulled out in the axial direction.
[0109]
Thus, in the pinch roll apparatus shown in FIGS. 5 and 6, the width of the strip 1 is changed from the upper shaft box 76 fitted to the journal portion of the upper roll 3 to the lifting beam 72 that can be raised and lowered with respect to the swing arm 70. Since the lifting beam 72 is urged upward by the balance cylinder 73 and the upper shaft box 76 is restrained by the lifting beam 72, the swing arm 70 is rotated upward by the lifting / lowering cylinder 49. The upper roll 3 can be replaced by simply releasing the restraint of the upper axle box 76 by the balance cylinder 73.
[0110]
Further, since the lifting cylinder 49 that is the lowering means of the upper roll 3 does not extend in the vertical direction above the upper roll 3, the apparatus height at the roll support portion is reduced, and the jig used for the roll extraction work can be reduced in size. The jig can be handled easily.
[0111]
7 and 8 show a fourth example of the embodiment of the pinch roll device of the present invention. In the figure, the same reference numerals as those in FIGS. 5 and 6 denote the same parts.
[0112]
In this pinch roll device, a cylinder support 90 extending upward is provided at the upper end of the upstream columnar portion 78 of the fixed frame 69, and the swing arm 91 is replaced with the swing arm 70 and the lifting cylinder 49 shown in FIGS. 5 and 6. An elevating cylinder 92 is used.
[0113]
The base end portion of the swing arm 91 is pivotally supported on the upper end of the upstream columnar portion 78 of the fixed frame 69 by a support shaft 56 extending substantially horizontally in the width direction of the strip 1.
[0114]
A roller bearing or a bush is interposed at the pivot portion between the support shaft 56 and the swing arm 91.
[0115]
A support block 71 that supports the lifting beam 72 so as to be movable up and down is fixed to the swing arm 91, so that the upper roll 3 is positioned above the plate line of the strip 1 between the left and right swing arms 91. It has become.
[0116]
In the lifting cylinder 92, the cylinder body 93 is pivotally supported by a pin 95 on a bracket 94 provided on the cylinder support 90, and the piston rod 96 is pivoted by a pin 98 on a bracket 97 provided near the tip of the swing arm 91. It is supported.
[0117]
When fluid pressure is applied to the head-side fluid chamber of the lift cylinder 92, the tip of the swing arm 91 is biased downward, and the stopper 86 comes into contact with the lift member 85 of the worm jack 75.
[0118]
When fluid pressure is applied to the rod-side fluid chamber of the lifting cylinder 92, the tip of the swing arm 91 is urged upward, and the stopper 86 is separated from the lifting member 85 of the worm jack 75.
[0119]
In the pinch roll device shown in FIGS. 7 and 8, the vertical position of the elevating member 85 of the worm jack 75 is appropriately adjusted so that the gap between the rolls 2 and 3 is set according to the thickness of the strip 1. By applying fluid pressure to the head side fluid chamber of the lifting cylinder 92, the upper shaft box 76 is urged downward together with the swing arm 91, the support block 71 and the lifting beam 72, and the upper roll 3 is moved to the lower roll 2. The two strips 2 and 3 hold the strip 1 fed from the upstream side A to the downstream side B in the transport direction with both rolls 2 and 3, and guide the strip 1 to the down coiler.
[0120]
At this time, the fluid pressure is applied to the head side fluid chamber of the balance cylinder 73 to urge the lifting beam 72 upward, and the clearance between the guide portion 83 of the lifting beam 72 and the guide portion 83 of the upper shaft box 76. The vertical displacement of the rotation center of the upper roll 3 due to the above is suppressed.
[0121]
When the existing upper roll 3 and lower roll 2 are replaced with new ones, the link 87 and the upstream columnar portion 78 of the fixed frame 69 are released from the pin 89, and then the fluid pressure of the lifting cylinder 92 is increased. This is applied to the rod-side fluid chamber, and the swing arm 91 is rotated around the support shaft 56 to separate the upper roll 3 from the lower roll 2.
[0122]
Further, the application of fluid pressure to the balance cylinder 73 is interrupted, and the lifting beam 72 is lowered with respect to the support block 71, thereby releasing the restraint between the lifting beam 72 and the upper shaft box 76.
[0123]
Next, the upper roll 3 is pulled out in the axial direction so that the upper shaft box 76 slides along the lifting beam 72 using a jig having substantially the same structure as the jig 42 (see FIG. 11). The roll 2 is pulled out in the axial direction.
[0124]
Thus, in the pinch roll device shown in FIGS. 7 and 8, the width of the strip 1 is changed from the upper shaft box 76 fitted to the journal portion of the upper roll 3 to the lifting beam 72 that can be raised and lowered relative to the swing arm 91. Since the lifting beam 72 is biased upward by the balance cylinder 73 and the upper shaft box 76 is restrained by the lifting beam 72, the swing arm 91 is rotated upward by the lifting cylinder 92. The upper roll 3 can be replaced by simply releasing the restraint of the upper axle box 76 by the balance cylinder 73.
[0125]
Moreover, since the cylinder main body 93 of the lifting cylinder 92 that is the lowering means of the upper roll 3 does not extend in the vertical direction above the upper roll 3, the height of the apparatus at the roll support portion is reduced and used for the roll extraction work. The jig can be miniaturized and the jig can be easily handled.
[0126]
The pinch roll device of the present invention is not limited to the above-described embodiment, and a pneumatic cylinder, a hydraulic cylinder, a servo hydraulic cylinder, and a hydraulic cylinder with a position sensor are appropriately employed for the lifting cylinder and the balance cylinder. When a hydraulic cylinder with a position sensor is used for the lifting cylinder, it is not necessary to provide a stopper or worm jack as a gap adjustment mechanism, or to place the lifting cylinder upstream in the transport direction of the upper roll. It goes without saying that the roll can be displaced together with the lower shaft box in the strip passing direction, and other modifications can be made without departing from the scope of the present invention.
[0127]
【The invention's effect】
As described above, according to the pinch roll device of the present invention, the following various excellent effects can be obtained.
[0128]
(1) In any of the pinch roll devices of the present invention, the upper shaft box fitted to the shaft end journal portion of the upper roll is not fixed to either the swing arm or the fixed frame, so the swing arm is raised and lowered. The roll can be exchanged simply by rotating upward by the cylinder for use.
[0129]
(2) When the elevating cylinder is arranged on the lower side of the swing arm, the height of the apparatus at the roll support portion is lowered, and the jig used for extracting the roll can be miniaturized. Becomes easier.
[0130]
(3) When a hydraulic cylinder with a position sensor is adopted as the lifting cylinder, it is possible to omit a stopper or a worm jack that regulates the swing arm rotation as a gap adjustment mechanism.
[0131]
(4) When the lower shaft box is configured to be able to be displaced in the strip passing direction, the downcoiler near the downstream side in the conveyance direction of the pinch roll is adjusted by appropriately adjusting the position of the lower roll with respect to the upper roll. And a state in which the strip is allowed to pass through the downcoiler without being guided.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a roll usage state of a first example of an embodiment of a pinch roll device of the present invention.
FIG. 2 is a conceptual diagram showing a roll replacement state of the first example of the embodiment of the pinch roll device of the present invention.
FIG. 3 is a conceptual diagram showing a roll usage state of the second example of the embodiment of the pinch roll device of the present invention.
FIG. 4 is a conceptual diagram showing a roll replacement state of the second example of the embodiment of the pinch roll device of the present invention.
FIG. 5 is a conceptual diagram showing a roll usage state of the third example of the embodiment of the pinch roll device of the present invention.
FIG. 6 is a conceptual diagram showing a roll replacement state of the third example of the embodiment of the pinch roll device of the present invention.
FIG. 7 is a conceptual diagram showing a roll usage state of the fourth example of the embodiment of the pinch roll device of the present invention.
FIG. 8 is a conceptual diagram showing a roll replacement state of the fourth example of the embodiment of the pinch roll device of the present invention.
FIG. 9 is a conceptual diagram showing an example of a conventional pinch roll device.
FIG. 10 is a conceptual diagram showing another example of a conventional pinch roll device.
FIG. 11 is a conceptual diagram of the upper roll sampling operation shown in FIG. 10;
[Explanation of symbols]
1 strip
2 Lower roll
3 Upper roll
46 fixed frame
47 Balance cylinder
48 Swing arm
49 Lifting cylinder
51 Lower axle box
54 Upstream columnar section
56 Support shaft
64 Swing arm
69 Fixed frame
70 swing arm
71 Support block
72 Lifting beam
73 Balance cylinder
76 Upper axle box
90 Cylinder support
91 Swing arm
92 Lifting cylinder

Claims (9)

Lower and upper rolls extending in the width direction of the strip sent from the upstream side to the downstream side in the conveying direction, a fixed frame for supporting the lower shaft box fitted to both end journal portions of the lower roll, and a base end portion fixed A swing arm pivotally supported by the frame and capable of coming into contact with an upper shaft box fitted to both end journal portions of the upper roll from above, an elevating cylinder capable of urging the swing arm downward, and the upper shaft box A pinch roll device comprising: a balance cylinder capable of urging the shaft upward or downward. Lower and upper rolls extending in the width direction of the strip sent from the upstream side to the downstream side in the conveying direction, a fixed frame for supporting the lower shaft box fitted to both end journal portions of the lower roll, and a base end portion fixed A swing arm pivotally supported by the frame, a support block fixed to the swing arm and positioned above the lower shaft box, and attached to the support block so as to be vertically movable and fitted to both end journal portions of the upper roll. Further, a lifting beam in which the upper shaft box is slidably fitted in the width direction of the strip, a lifting cylinder for urging the swing arm downward, and an urging the upper shaft box upward or downward A pinch roll device comprising: a balance cylinder that can be used. The pinch roll device according to claim 1, wherein the balance cylinder is attached to the fixed frame. The pinch roll device according to claim 2, wherein a balance cylinder is interposed between the support block and the lifting beam. The pinch roll device according to any one of claims 1 to 4, wherein the elevating cylinder is disposed below the swing arm. The pinch roll device according to any one of claims 1 to 4, wherein an elevating cylinder is disposed above the swing arm. The pinch roll device according to any one of claims 1 to 6, wherein a cylinder with a position sensor is used as the elevating cylinder. The pinch roll device according to any one of claims 1 to 6, further comprising a swing arm rotation position setting means. The pinch roll device according to any one of claims 1 to 8, wherein the lower shaft box is configured to be able to be displaced in a strip passing direction.

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