POLZ VICTOR I (US)
| US3949948A | 1976-04-13 | |||
| US1798630A | 1931-03-31 | |||
| US3086726A | 1963-04-23 | |||
| US2282909A | 1942-05-12 | |||
| US3886833A | 1975-06-03 | |||
| US3583270A | 1971-06-08 | |||
| US3998399A | 1976-12-21 | |||
| US3883085A | 1975-05-13 |
| 1. | A variablewidth web slitting and winding apparatus comprising: a support (10), at least a pair of spaced, parallel, platelike slitter modules (A, B) extending from and slidably mounted on the support (10) for movement relative to one another, each slitter module (A, B) having a pair of rigid flanges (28) extending inwardly toward one another in parallel spaced relation, a respective knife assembly (30, 32) rotatably mounted on each pair of flanges (28) for slitting a web fed through the knife assembly (30, 32) , clutch means (76) coupled to the slitter modules (A, B) for independently slidably adjusting the modules on the support (10) for varying the distance between the knife assemblies (30, 32) and hence the width of a strip slit by the knife assemblies (30, 32) from the web, a drivable winding drum (126) having an axis parallel to the support (10) and offset from one side of the slitter modules (A, B), core supporting means (140, 142) on the slitter modules (A, B) for rotatably supporting a core (136) and positioning the core (136) adjacent to the winding drum (126), and guiding means (132, 134) for guiding the slit strip between the core (136) and the winding drum 126 and onto the core (136) whereby the slit strip is wound by the winding drum (126) onto the core (136). |
| 2. | An apparatus according to Claim 1 wherein each of the slitter modules (A, B) comprises a pair of substantially Lshaped plates (22) secured together to form a substantially Ushaped member having a pair of upwardly extending spaced legs (26) , the flanges (28) extending from the legs (26) . |
| 3. | An apparatus according to Claim 2 wherein the substantially Lshaped plates (22) have a pair of overlapped base legs (24) . |
| 4. | An apparatus according to Claim 2 or 3 wherein each knife assembly (30, 32) comprises a pair of knife housings (42) and a pair of coacting circular slitting knives (48) mounted on the knife housings, and in which each knife housing (42) is rotatably supported by one of the flanges (28) . |
| 5. | An apparatus according to Claim 4 wherein the pairs of knife housings (42) in each slitter modules (A, B) are aligned to define a pair of spaced, axially aligned openings (70), there being a pair of drive shafts (62) extending through the aligned openings (70) for rotatably driving the knives (48), and the knife housings (42) being axially movable on the drive shafts (62) as the slitter modules (A, B) are slidably movable on the support. |
| 6. | An apparatus according to claim 5 wherein each of the knife housings (42) has an axis of rotation, and means (60) are provided for arranging the axis of at least one of the knife housings (42) of each pair of knife housings (42) relative to the other whereby the coacting knives (48) do not lie in the same place. |
| 7. | An apparatus according to Claim 6 wherein the knife housing openings (70) are slightly larger than the outer periphery of the drive shafts (62) to allow slight pivotal movement of the knife housings (42) thereon, and the knife housing axis arranging means comprises a knife housing support block (52) , a bearing (54) interposed between the knife housing (42) and the support block (52), and a tapered shim (60) interposed between the support block (52) and the flange (28) on each leg for orienting the axis of the knife housing (42) relative to the axis of the drive shaft. |
| 8. | An apparatus according to any preceding Claim wherein the clutch means (76) for slidably adjusting the slitter modules (A, B) comprises aligned openings (74) in the slitter modules (A, B) , a rotatable nut (78, 82) contained within each module openings and having a threaded nut opening aligned with the slitter module opening, a threaded rod (72) insertable through the openings in the slitter module and in threaded engagement with the nuts (78, 82), means for rotating the threaded rod (72) , and means (80, 86) for selectively holding the nuts (78, 82) from rotation whereby, upon rotation of the threaded rod (72) , slidable movement is imparted to the selected slitter modules (A, B) whose nuts are held from rotation. |
| 9. | An apparatus according to any preceding Claim further comprising means movable between a first position for clamping the slitter modules (A, B) to the support, and a second position for raising the slitter modules (A, B) from the bed for facilitating slidable movement of the slitter modules (A, B) along the support. |
| 10. | An apparatus according to Claim 9 wherein each of the slitter modules (A, B) has a lip (12) along each side thereof, and clamping and raising means comprising a pair of spaced, parallel bearing supports (100, 102) on the slitter modules, a pair of spaced, parallel guide rails (98) below and in register with the pair of bearing supports (100, 102) and extending along the length of the support, guide bearings (104, 106) interposed between the pairs of guide rails and bearing supports' (98, 100, 15 102), a pair of spaced, parallel clamp rails (88), each clamp rail (88) having a first leg (110) adjacent one of the lips (112) and a second leg (90) for supporting one of the guide rails (98), and cylinder means (108) secured to each of the clamp rails (88) for moving the clamping and raising means between the first position for clamping the first legs (110) to the respective lips (112) and the slitter modules to the support, and the second position for forcing the guide rails (98), against the bearings (104, 106) for raising the bearing supports (100, 102) and slitter modules (A, B) from the support to facilitate movement of the slitter modules (A, B) on the guide rails (98). |
| 11. | A variablewidth web slitting and winding apparatus according to any preceding Claim wherein there are two outer slitter modules (A, B) and one inner slitter module (C), each module having the knife assembly (30, 32) for slitting a web into adjacent first and second strips, a second driven winding drum (126) is provided parallel to the first winding drum (126) and offset at the opposite .side of said slitter modules, the first core supporting means (140, 142) comprises a first core support member (142) pivotally secured to the one side of one of the outer slitter modules and the inner slitter module for rotatably supporting the first core (136) to receive the first strip, second core supporting means (140, 142) comprising a second core support member (142) pivotally secured to the opposite side of the other of the outer slitter modules and the inner slitter module for rotatably supporting a second core (136) in position to receive the second strip, and second guiding means (132, 134) are provided for guiding the second strip between the second core (136) and second winding drum (126) onto the second core (136) whereby the second slit strip is wound by the second, winding drum (126) onto the second core (136). 5 12. An apparatus according to Claim 8 or any claim appendant thereto wherein the apparatus includes a vertically extending frame (64) and the rotatably mounted threaded rod (72) is cantilevered from the frame« 10 13'. An apparatus according to Claim 2 or any claim appendant thereto further comprising a pair of web guide rollers (122) interposed between the knife means (30, 32) and the winding drum (126) or the first and second winding drums (126) and 15 extendable through the space defined by the legs and the flanges of the slitter modules with the nip of guide rollers (122) substantially in register with the nip of the knife means. |
| 12. | 14 An apparatus according to Claims 12 and wherein the guide rollers (122) are cantilevered from the vertically extending frame (64) . |
A Variable-Width Web Slitting and Winding Apparatus
The present invention relates to a variable-width web slitting and winding apparatus. More particularly, the present invention is concerned with a web slitting and winding apparatus having laterally adjustable slitter modules for slitting one or more webs of varying width, and winding the slit web strip(s) onto a receiving core(s) . The prior art is replete with various web slitting and winding machines for winding a plurality of strips slit from a continuous web of paper or the like onto cores.
Representative prior art patents include Webb, U.S. Patent No. 3,583,270; Held, U.S. Patent No. 3,883,085; and Held et al, U.S. Patent No. 3,998,399.
It is an object of the present invention to provide an improved, variable-width web slitting and winding apparatus for cutting a web into a plurality of web strips and winding the strips onto cores.
According to the present invention, there is provided a variable-width web slitting and winding apparatus comprising a support, at least a pair of spaced, parallel, plate-like slitter modules extending from and slidably mounted on the support for movement relative to one another, each slitter module having a pair of rigid flanges extending inwardly toward one another in parallel spaced relation, a respective knife assembly rotatably mounted on each pair of the flanges for slitting a web fed through the knife assemblies, clutch means coupled to the slitter modules for independently slidably adjusting the modules on the support for varying the distance between the knife assemblies and
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hence the width of a strip slit by the knife assemblies from the web, a drivable winding drum having an axis parallel to the support and offset from one side of the slitter modules, core supporting means on the slitter modules for rotatably supporting a core and positioning the core adjacent to the winding drum, and guiding means for guiding the slit strip between the core and the winding drum and onto the core whereby the slit strip is wound by the winding drum onto the core.
One of the advantages of the web slitting and winding apparatus of this invention is its improved simplified, yet rugged design. This design results in fewer movable parts, easier accessibility to the assembled parts, and a reduction in the down-time of the apparatus for maintenance and repair.
Another advantage of this invention is the reduced time required to (1) adjust the apparatus for varying the width of the slit web strips, (2) unload finished rolls, (3) load cores, and (4) thread the slit web strips onto the cores.
The invention will be described further, by way of example, with reference to the accompanying drawings, in which: Fig. 1 is a perspective view of a web slitting and winding apparatus with portions of the apparatus broken away for purposes of clarity;
Fig. 2 is a segmental plan view of the knife assemblies of the apparatus of Fig. 1 for slitting the web into a plurality of strips, shown in phantom, the remaining parts of the apparatus being omitted for purposes of clarity;
Fig. 3 is a segmental end view of knife assemblies shown in Fig. 2;
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Fig. 4 is a sectional view of a flexible knife assembly taken substantially along line 4-4 of Fig. 3;
Fig. 5 is a sectional view of a fixed knife assembly taken substantially along line 5-5 of Fig.3; Fig. 6 is a sectional view taken substantially along line 6-6 of Fig. 1 showing a means for selectively releasing or holding a nut on a rotating threaded rod for slidably adjusting the position of a slitter module;
Fig. 7 is an enlarged segmental front elevational view of the apparatus of Fig. 1 showing a means for raising the slitter modules from a bed for sliding movement; and Fig. 8 is a segmental front elevational view of a portion of the apparatus of Fig. 1 showing one of the mechanisms for guiding a web strip around a core.
Referring now to Fig. 1 of the drawings, a web slitting and winding apparatus constructed in accordance with a preferred embodiment of this invention essentially comprises a support 10, a plurality of slitter modules designated A and B slidably mounted on the support for slitting a web 12 into web strips C, D and E of varying width, web strip wind-up sections 14 on opposite sides of the slitter modules for winding the web strips into finished rolls, and drive means (not shown) for components of the apparatus at one end of the support. The support 10, as best seen in Figs. 1 and 7, comprises any suitable rigid base 16 formed from hollow rectangular steel beams or the like arranged to be mounted on, for example, a concrete floor. A plurality of spaced hollow rectangular beams 18 are rigidly secured to the base. Flat steel plates 20
are mounted on the upper surfaces of beams 18 for supporting slitter modules A and B, to be described.
Each slitter module A comprises a pair of substantially identical L-shaped plates 22, each having a base leg 24 and an upstanding leg 26 having a vertical portion and an outwardly inclined portion. The base legs 24 are overlapped, spaced apart by suitable spacers, not shown, and secured together with the free ends thereof extending in opposite directions to form a substantially U-shaped module. The upstanding legs 26 have inwardly extending flange plates 28 rigidly secured to face surfaces of the vertical portions of legs 26 in spaced, parallel relation for supporting knife assemblies 30, 32, to be described hereinafter. Each flange plate 28 on one plate 22 is coplanar with base leg 24 on the other plate, and cooperates therewith to define a channel therebetween through which, an edge of a slit web strip can pass. Each slitter module B also comprises a pair of substantially identical L-shaped plates 34, each having a base leg 36 and an upstanding leg 38 having a vertical portion and an outwardly inclined portion. The base legs 36 are secured together in a spaced and overlapped relation with the free ends thereof extending in opposite directions to form a substantially U-shaped module. The vertical portions of upstanding legs 38 have integral, inwardly extending flanges 40 in spaced, parallel relation for supporting slitter knife assemblies 30, 32.
Although the slitter modules A, B are shown made from L-shaped plates 22, 34 respectively, each, of course, can also be made out of a solid piece, such as by casting or the like.
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shims 58 interposed between support block 52 and flange 28, 40 so that knife blade 48 lies in a vertical plane. The knife assemblies 30, 32 are adjusted by varying the thickness of shims 58, 60 so that the flexibly mounted knife blade 48 bears against the fixedly mounted blade 48 with a predetermined force. '
With reference to Figs. 3-5, the flexible and fixed knife assemblies 30, 32, respectively, are rotatably driven by a pair of square shafts 62 cantilevered from an upright frame 64 mounted at one end of support 10. The knife housing 42 of each knife assembly 30, 32 has an inner-peripheral, circular groove 66 for receiving a complementary plastic bushing 68. Bushing 68 is rigidly secured to knife housing 42 by a retainer plate 69. The bushing has an axial square opening 70 through which one of the square drive shafts 62 extends. Rotation of the drive shafts in opposite directions imparts rotation to the bushings 68, knife housings 42 and knife blades 48 in the proper direction for slitting web 12 fed between the knife assemblies, into one or more web strips, such as web strips C, D and E, for example. With reference to Fig. 6, a mechanism is disclosed for adjusting the width of the web strips C, D and E by slidably moving slitter modules A, B along support 10. This mechanism comprises a rotatable threaded rod 72 cantilevered from frame 64, and extending through axial openings 74 in aligned clutches 76, one mounted in the overlapped base legs of each of the slitter modules A, B. Each clutch 76 has a rotatable half-nut 78 threaded onto threaded rod 72, and secured by screws to a clutch rotor 80 rotatable with the rod and rotatable nut 78. The
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Any number of slitter modules A, B, four of which are shown in Fig. 1, are alternately arranged on support 10 to provide unobstructed alternate paths for any number of slit web strips, such as strips C,
5 D, E, for example, to the wind-up sections 14, as best seen in Figs. 1 and 2. Knife supporting flanges 40 on the B modules, and knife supporting flanges 28 on the A modules are offset to allow free passage of the slit web strips in alternate directions.
10 With reference to Figs. 1-5, one flange 28, 40 of each slitter module A, B, respectively, rotatably supports a flexible knife assembly 30 (Fig. 4), and the opposite flange 28, 40 supports a fixed knife assembly 32 (Fig. 5). Each knife assembly 30,
1532 comprises a knife housing 42 having a nose 44 surrounded by an annular seat 46 onto which a circular knife blade 48 is mounted. The knife 48 is retained on seat 46 b an annular retainer plate 50 secured to knife housing 42 by screws. In flexible
20 knife assembly 30, a space is provided between the inner surface of plate 50 and the rear face of knife blade 48 to allow the blade to flex whereas in the fixed knife assembly 32, the inner surface of plate 50 engages the entire rear face of knife blade 48.
25 Inner housing 42 is rotatably mounted within a knife support block 52 by bearings 54 interposed between the housings. Support block 52 fits into a blind bore 56 in the flange 28, 40, and is secured to the flange by screws. The axis of flexible knife
30 assembly 30 is adjusted by a tapered shim 60 interposed between support block 52 and flange 28, 40 for tilting the housing and knife blade a degree or so, designated by the angle ^^ in Fig. 4, relative to a vertical plane. The axis of fixed knife assembly
35 32 is adjusted for horizontal orientation by flat
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clutch 76 further has a floating rotatable half-nut 82 threaded onto the rod, and compression springs 84 interposed between the half-nuts 78, 82 for removing any slack between the rod threads and nuts. When clutch 76 is de-energized, rotation of rod 72 rotates the nuts 78, 82 and clutch rotor 80 freely within the slitter module A, B and no movement is imparted to the slitter module. When clutch 76 is energized, a non rotatable, axially movable coupling plate 86 is moved into braking engagement with clutch rotor 80, and prevents the rotor and nuts 78, 82 from rotating whereby slidable movement is imparted to the slitter module A, B, upon rotation of rod 72. Accordingly, by energizing one or more of the clutches 76, slitter modules containing those clutches will be accurately moved along support 10 for varying the width of the web strips. The actual position of the slitter modules A, B, and knife assemblies 30, 32 can be read by any suitable sensing head, not shown, optically scanning a scale, not shown, spanning the apparatus. The signals from the head are preferably fed to digital displays, not shown, and/or to a computer, not shown, which can control the width adjusting mechanism, as well as one or more of the other mechanisms of which the apparatus is comprised. To move the slitter modules A, B by rotatable threaded rod 72, it is first necessary to lift the slitter modules from plates 20. This is achieved by a mechanism to be described with reference to Figs. 1 and 7. A U-shaped clamp rail 88 is arranged extending along each side of the slitter modules and support. Second clamp leg 90 of each clamp rail 88 is secured to a support plate 92 by telescoping guide posts 94 fixed to plates 92, and sleeves 96 on legs 90 which guide clamp rail 88
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vertically up and down. A guide rail 98 is secured to each leg 90 in alignment with a bearing support 100, 102 secured to opposite bottom side edges of each slitter module A, B. Bearing support 100 has four angularly extending bearings 104 for engaging inclined surfaces of guide rail 98 for laterally positioning each slitter module. The opposite bearing support 102 has a horizontal rotatable roller bearing 106 engaging the top flat surface of the second guide rail 98. A plurality of air cylinders 108 are interposed between and interconnect support plate 92 and leg 90. When actuated, cylinders 108 raise clamp rail 88 and guide rails 98 causing the guide rails to engage the bearings and raise the slitter modules A, B off the bed by approximately 0.0125 cms. Such movement also raises opposite legs 110 of clamp rails 88 from laterally extending side lips 112 on the slitter modules. A spring loaded block, not shown, supported by and located between the legs and lips compensates for any unevenness between the two. Each, slitter module A, B now rests on bearings 104, 106 and guide rails 98, and can be easily moved by the rotating drive screw 72 to adjust the widths of the slit web strips. When properly adjusted, cylinders.108 are deactivated for lowering the slitter modules A, B onto the bed plates 20, and clamping them thereto. The clamping is achieved by legs 110 of clamp plates 88 forcibly engaging lips 112 on the slitter modules through the springloaded blocks.
Web 12 is fed by any suitable web feeding means, such as a vacuum drum 114 (Fig. 1) which controls the speed of the web and isolates the rewind tension from the unwind tension. The web 12 proceeds over a tension controlling roller 116, a cutting
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board 118, and an idler roller 120 into the nip of the knife assemblies 30, 32. The web 12 is slit into a plurality of web strips C, D, E, each of which is guided around one of two idler rollers 122, and onto web strip wind-up sections 14 provided on opposite sides of the slitter modules and support. The idler rollers 122 extend through openings defined in the slitter modules A, B by the base legs 24, 36, upstanding legs 26, 38 and flanges 28, 40, and are mounted for rotation on support shafts, not shown, cantilevered from vertically extending frame 64. The web strips are guided from the knife assemblies 30, 32 in staggered relation, as best seen in Figs. 1 and 2, into the web strip wind-up sections 14, now to be described.
Since the wind-up sections 14 for the slit web strips C, D, E are substantially identical except for the fact that strips C and E are threaded over a driven winding drum 126, and the other strip D is threaded underneath the drum, only the strip D wind-up section will be explained in detail. Slit web strip D is guided by guide chutes (not shown) and an idler pressure roller 124 partially around winding drum 126 extending across the entire machine. Drum 126 has stub shafts, not shown, at each end thereof rotatably mounted in support brackets 128 (Fig. 1), only two of which are shown secured to support columns 130. Drum 126 is rotatably driven by any suitable drive motor, not shown, coupled thereto by any suitable belt or gear train, not shown. The web strip end is guided onto and cinched to a core 136 by pivotally mounted cylinder operated cinch bars 132 and guide shoes 134 (Fig. 8). The web strip is initially center wound onto the core, and thereafter surface wound by the winding drum 126 to form a
finished roll 138.
The ends of the cores 136 are supported by cylinder operated gudgeons 140 (Fig. 8) rotatably mounted at the free ends of a pair of spaced wind-up
5 arms 142. The opposite ends of arms 142 (Fig. 1) are pivotally secured to brackets 143 mounted on the free ends of the inclined portions of upstanding legs 26, 38 of the slitter modules A, B. Accordingly, adjustment of the slitter modules to vary the width
10 of the slit strips automatically adjusts arms 142 and the gudgeons supported thereby to the proper core length. A cylinder 144 is provided between each arm 142 and the edge of the vertical portion of a slitter module leg 26, 38 for moving the arms between an
15 extended core loading position, in which a core 136 of a length matching the width of a slit strip can be loaded on gudgeons- 140, and a retracted roll winding position, in which the gudgeons are moved into engagement with the surface of surface winding drum
20126.
During the core loading operation, wind-up arms 142 are raised by cylinders 144 until the gudgeons 140 are in line with the cores 136 lying in nests 146 of a core feed tray 148 (Fig. 1). The
25 cylinder operated gudgeons 140. are axially moved inwardly to engage the core ends. The nests 146 are retracted by means, not shown, and the arms 142 together with the cores held in the gudgeons 140 are lowered until the gudgeons contact the winding drums
30126, as seen in Fig. 8. The cores 136 are smaller in diameter than the gudgeons 140 to allow the slit web strip to pass between drum 126 and the core during thread-up. The upper guide 132 skims the end of the slit strip from the drum and feeds it around the
35 core. The cylinder operated guide shoe 134 is moved
to straddle the core and continues to guide the strip around the core. The lower guide shoe 132 completes the guiding of the strip end around the core and tucks it into the nip between the succeeding strip convolution and core. The core is driven by any suitable means, not shown, to run faster than the web, and since guide shoe 134 also contains a roller, not shown, which presses the web against the core, the web strip is tightened around the core and cinched. A few laps are wound onto the core in center wind mode to form a roll 138. As the outer periphery of roll 138 makes contact with winding drum 126, the center drive to the core becomes ineffective and the roll continues to be wound by the winding drum in a surface driving mode of operation. When roll 138 has been wound to the desired diameter, the machine is stopped and the pressure roll 124 is pressed against the winding drum 126 to pinch the slit web strips. The "end of a roll" knife 150 is moved by a rodless air cylinder 152 across all of the strips to cut them off. The gudgeons 140 are then retracted and the finished rolls 138 are unloaded onto a suitable roll unloading device, not shown. The next cycle of core loading, cinching and winding is initiated, and the above-described sequence repeated.
As indicated earlier, slitter drive shafts 62, slitter module drive rod 72, and idler rollers 120, 124 are all cantilevered from upright frame 64 to extend over support 10. The shaf s, and the screw have portions thereof, not shown, journaled for rotation within the frame, and rearwardly extending portions, not shown, coupled by any suitable means, such as gears, pulleys and belts, not shown, to any suitable drive motors, not shown, for rotatably driving the drive shafts 62, and threaded rod 72.