SEAMING DEVICE

Abstract

The present invention has an object of providing a seaming device that can prevent the leakage of a lubricating oil from the in-machine housing of a chuck unit into a seaming operation space, prevent the occurrence of a defective product contaminated by the lubricating oil, and eliminate heat elongation due to heat generation to accurately maintain a seaming dimension. Provided is a seaming device (100) including: a chuck unit (320) that positions a lid (F) mounted on a can C; and a seaming unit (410) that seams the lid to the can, wherein the chuck unit has a spindle (325) having a chuck (321) for positioning the lid attached at a lower end thereof, a bearing (326) that rotatably supports the spindle, and a non-contact type oil seal mechanism for sealing between the spindle and the in-machine housing at a position below the bearing.

Claims

1. A seaming device comprising: a chuck unit that positions a lid mounted on a can; and a seaming unit that seams the lid to the can, wherein the chuck unit has a spindle having a chuck for positioning the lid attached at a lower end thereof, a bearing that rotatably supports the spindle inside an in-machine housing and is lubricated by a lubricating oil, and a non-contact type oil seal mechanism for sealing between the spindle and the in-machine housing at a position below the bearing.

2. The seaming device according to claim 1, wherein the oil seal mechanism has an umbrella-like slinger provided below the bearing.

3. The seaming device according to claim 2, wherein the slinger has, on a lower surface thereof, a groove extending in a linear radial shape or a curved radial shape toward an outer peripheral edge from a shaft center side of the spindle.

4. The seaming device according to claim 2, wherein the oil seal mechanism has a return flow path that causes the lubricating oil to circulate toward the in-machine housing from an upper surface of the slinger by a centrifugal force when the seaming device operates.

5. The seaming device according to claim 2, wherein the oil seal mechanism has a drain structure that causes the lubricating oil to flow toward a lower part inside the in-machine housing when the seaming device stops.

6. The seaming device according to claim 2, wherein a fail-safe for causing the lubricating oil to flow toward an inside of the in-machine housing is formed below the slinger.

7. The seaming device according to claim 2, wherein an intrusion preventing member extending in a vertical direction is formed below the slinger around the spindle.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0025] FIG. 1 is a schematic view showing an example of the configuration of a seaming device according to an embodiment of the present invention.

[0026] FIG. 2 is a cross-sectional view showing an example of the configuration of the seaming device according to the embodiment of the present invention.

[0027] FIG. 3 is a cross-sectional view showing an example of the configuration of the chuck unit of the seaming device according to the embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

[0028] Hereinafter, the present invention will be described in detail.

[0029] As shown in FIG. 1, a seaming device 100 according to an embodiment of the present invention includes: a seaming turret 101 that performs the seaming process of a can C and a lid F; a carrying-in conveyor 102 that supplies a can C before seaming to the seaming turret 101 in a non-rotated state; a lid supply device 104 that supplies a lid F and includes a lid separation unit 210 and a lid conveyance turret 250; a discharge turret 107 that carries out a can CM after seaming from the seaming turret 101; and a carrying-out conveyor 108 that carries out a can CM from the discharge turret 107 to an outside.

[0030] Each of the seaming turret 101, the discharge turret 107, and the lid conveyance turret 250 has pockets P that separately accommodate and convey cans C and CM and a lid F on their outer peripheral parts, and the carrying-in conveyor 102 has attachments 103 that separately engage and convey a can C.

[0031] The rotation speeds of the seaming turret 101, the discharge turret 107, and the lid conveyance turret 250, the movement speed of the attachments 103 of the carrying-in conveyor 102, and a timing at which the respective pockets P and the attachments 103 are linked to each other are adjustably designed so that cans C and CM and a lid F are smoothly transferred between the respective turrets and the conveyors.

[0032] As shown in FIG. 2, the seaming turret 101 that performs the seaming process of a can C and a lid F includes: a can mounting unit 350 that mounts a can C and rotates the same; a chuck unit 320 that is provided facing the can mounting unit 350 and has a chuck 321 that positions a lid F mounted on a can C and a knockout pad 322 that is fitted to be vertically movable inside the chuck 321 so as to press the lid F mounted on the can C; and a seaming unit 410 having seaming rolls 451 and 452 that seam a lid F to a can C in each of the pockets P.

[0033] The seaming turret 101 is arranged to be rotatable about the center shaft 109 with its central axis X extending in a vertical direction, and is rotationally driven by a driving mechanism 151 of the seaming turret 101.

[0034] The lid separation unit 210, the lid conveyance turret 250, and the carrying-in conveyor 102 are mechanically driven by the driving mechanism 151 of the seaming turret 101 via a transmission mechanism.

[0035] The chuck unit 320 is arranged to be rotatable about the center shaft 109 with its central axis X extending in a vertical direction and face the can mounting unit at an equal angular interval, and an outer surface gear 323 of a rotating shaft that supports the chuck 321 at its lower end engages a sun gear 324 supported by the center shaft 109. The chuck unit 320 revolves with the rotation of the center shaft 109 and a center column, and the chuck 321 rotates on its axis with the engagement between the sun gear 324 and the outer surface gear 323.

[0036] The chuck 321 is provided to be fixed and rotatable in a vertical direction. As shown on the right side of the central axis X in FIG. 2, the centering of a lid F is performed in such a manner that a can C on which the lid F has been mounted by lifting the can mounting unit 350 is fitted with the lower end outer peripheral surface of the chuck 321 while being sandwiched between the knockout pad 322 and the can mounting unit 350.

[0037] The chuck unit 320 has a chuck spindle 325 having the chuck 321 for positioning a lid F attached at its lower end. As shown in FIG. 3, the chuck spindle 325 is provided at an equal angular interval to penetrate the outer peripheral part of a table 327 that rotates about the central axis X of the seaming turret 101 so as be freely rotatable via a bearing 326 inside a penetration hole 327H. Each chuck spindle 325 rotates on its axis and is caused to revolve by the table 327.

[0038] The bearing 326 is lubricated by a lubricating oil. Further, the seaming device 100 of the embodiment has a non-contact type oil seal mechanism for sealing between the chuck spindle 325 and the table 327 at a position below the bearing 326. Thus, the seaming device 100 seals between the inside of an in-machine housing and a seaming operation space V for a can C.

[0039] In the oil seal mechanism, a metallic annular umbrella-like slinger 311 is provided below the bearing 326 on the periphery of the chuck spindle 325 to be fitted into the chuck spindle 325 so as to rotate with the chuck spindle 325. The umbrella-like slinger 311 is arranged with its upper end surface positioned at the lower part of the bearing 326 and its umbrella lower part expanding outer downward in a radial direction from the shaft center of the chuck spindle 325.

[0040] At a position most separated from the central axis X of the seaming turret 101 in the penetration hole 327H of the table 327, one end (entrance) of a return flow path 329 penetrating the inside of the table 327 is opened. The other end (exit) of the return flow path 329 is in communication with the inside of the in-machine housing. The return flow path 329 causes the lubricating oil to circulate toward the in-machine housing from the upper surface of the umbrella-like slinger 311 by a centrifugal force and extends outer upward in the radial direction of the central axis X of the seaming turret 101. When the chuck spindle 325 rotates on its axis, the lubricating oil having lubricated the bearing 326 flows downward and contacts the upper surface of the umbrella-like slinger 311. Then, the lubricating oil moves outward in the radial direction on the surface and is swept away (scattered) outward in the radial direction of the central axis X of the seaming turret 101 along the return flow path 329 by a centrifugal force resulting from the rotation of the table 327 (the revolution of the seaming turret 101).

[0041] At a position closest to the central axis X of the seaming turret 101 in the penetration hole 327H of the table 327, a drain flow path (drain structure) 318 that extends downward in the direction of the center shaft 109 and is in communication with the in-machine housing is formed inside the table 327. When the seaming device 100 stops, the drain flow path 318 can cause the lubricating oil to flow down toward a lower part inside the in-machine housing along the upper surface of the umbrella-like slinger 311 due to its natural drop. Further, the umbrella-like slinger 311 has, on its lower surface (rear surface), grooves extending in a linear radial shape or a curved radial shape toward an outer peripheral edge from the shaft center side of the chuck spindle 325. A plurality of the grooves are preferably formed to be evenly separated in a circumferential direction. The curved grooves include arc-shaped grooves or spiral-shaped (swirl-shaped) grooves.

[0042] Below the umbrella-like slinger 311, an annular member 312 is provided so as to be liquid-tightly inscribed in the lower part of the penetration hole 327H of the table 327 via two O-rings 317 and 317. The umbrella-like slinger 311 is labyrinthically fitted so as to cover the upper side and the lateral peripheral surface of an annular rail part 313 on which an annular groove that is formed inside in the circumferential direction of the annular member 312 and opened upward while protruding upward. By such a configuration, the lubricating oil that lubricates the bearing 326 and drops while being guided by the upper surface of the umbrella-like slinger 311 is intercepted by the annular rail part 313 and prevented from flowing into the gap between the annular member 312 and the chuck spindle 325.

[0043] Below the return flow path 329 inside the table 327, one end (entrance) of a fail-safe 315 penetrating the inside of the table 327 is opened at a position facing the exit of a return flow path 316 that bends and penetrates downward and in a lateral direction from the annular rail part 313. The other end (exit) of the fail-safe 315 is in communication with the inside of the in-machine housing. The fail-safe 315 extends upward in the radial direction of the central axis X of the seaming turret 101. In the fail-safe 315, the lubricating oil that has not flowed (scattered) into the return flow path 329 via the umbrella-like slinger 311 by a centrifugal force resulting from the rotation of the table 327 and remained inside the annular member 312 is returned to the inside of the in-machine housing by the centrifugal force.

[0044] The oil seal mechanism is constituted by the umbrella-like slinger 311, the annular member 312, and a cylindrical sleeve 330.

[0045] Below the annular member 312, a cylindrical sleeve 330 that has at its upper part a fringe 331 protruding outward in the radial direction from the shaft center of the chuck spindle 325 and tightly seals between the cylindrical sleeve 330 and the annular member 312, and that serves as an intrusion preventing member fitted into the chuck spindle 325 is provided to be fitted into the chuck spindle 325 so as to rotate with the chuck spindle 325.

[0046] The seaming unit 410 performs double seaming with seaming rolls 451 and 452 each pivotally fitted to both ends of a seaming lever 450 so as to rotate, the seaming lever 450 having its central part fixed to the lower end of a revolving roll swinging shaft 132.

[0047] In a double seaming process, a curled portion of a lid F is wrapped into a flange portion of a can C by the seaming roll 451 in primary seaming, and then crimping and bonding are performed by the fastening of seaming roll 452 to maintain sealing in secondary seaming.

[0048] The basic operation of the seaming device 100 thus configured will be described.

[0049] A can C to which a lid F has been seamed is conveyed while engaging each of the attachments 103 of the carrying-in conveyor 102 and directed to the seaming turret 101 rotated by the driving mechanism 151 of the seaming turret 101.

[0050] On the other hand, the lid F is cut out one by one from the lid separation unit 210, transferred to each of the pockets P of the lid conveyance turret 250, and directed to the seaming turret 101 by the rotation of the lid conveyance turret 250 (see FIG. 1).

[0051] The speeds and timings of the carrying-in conveyor 102 and the lid conveyance turret 250 are adjusted according to the speed and timing of the seaming turret 101 so that the centers of the can C and the lid F are aligned with each other at a merging point G. When the can mounting unit 350 of which the rotation is controlled via appropriate gears, a cam mechanism, or the like by the driving mechanism 151 to which power has been applied from a driving source not shown is lifted at the merging point G, the lid F is mounted on the can C mounted on the plate 360.

[0052] After that, the can mounting unit 350 is further lifted, the knockout pad 322 inside the chuck 321 presses the lid F, and the chuck 321 of which the rotation is controlled via appropriate gears, a cam mechanism, or the like by the driving mechanism 151 is fitted into the lid F to perform the centering of the lid F. The can C on which the lid F has been mounted is sandwiched between the plate 360, the chuck 321, and the knockout pad 322 at a constant axial load necessary for seaming.

[0053] Then, the seaming turret 101 further rotates, and the plate 360 and the chuck 321 accelerate up to their rotation numbers necessary for seaming before the sandwiched lid F and the can C reach a seaming interval E shown in FIG. 1.

[0054] While passing through the seaming interval E, the seaming lever 450 fixed to the lower end of the roll swinging shaft 132 of the seaming unit 410 is swung. Thus, two seaming rolls 451 and 452 for primary and secondary seaming each pivotally fitted to both ends so as to rotate are sequentially pressed against the can C and the flange of the lid F mounted on the can C from their lateral sides toward the chuck 321 to perform double seaming.

[0055] The can CM having completed the seaming is transferred from the seaming turret 101 to the discharge turret 107 and then transferred from the discharge turret 107 to the carrying-out conveyor 108 to be carried out to a next process such as inspection and packaging.

[0056] In the chuck unit 320 during the movement of the seaming device 100, the chuck spindle 325 rotates on its axis with the engagement between the sun gear 324 and the outer surface gear 323, while revolving with the rotation of the table 327 about the central axis X of the seaming turret 101, and on the basis of the revolution and the rotation, a seaming operation is performed to seam a lid F to a can C in cooperation with the chuck 321 and the seaming rolls 451 and 452. At this time, the lubricating oil flows down while lubricating the bearing 326, is guided from the upper surface to the lower end of the umbrella-like slinger 311, and is swept away outward in the radial direction of the central axis X of the seaming turret 101 along the return flow path 329 and returned to the inside of the in-machine housing by a centrifugal force resulting from the rotation of the chuck spindle 325 on its axis and the rotation of the table 327. Further, the lubricating oil that has slightly remained on the annular member 312 without flowing into the return flow path 329 is swept away outer upward in the radial direction of the central axis X of the seaming turret 101 along the fail-safe 315 by the centrifugal force resulting from the rotation of the table 327 and returned to the in-machine housing. On the other hand, when the seaming device 100 stops, the lubricating oil having lubricated the bearing 326 drips downward and is guided from the upper surface to the lower end of the umbrella-like slinger 311 due to its natural drop, and then returned to the in-machine housing in the direction of the center shaft 109 by the drain flow path 318 due to its natural drop.

[0057] Further, the cylindrical sleeve 330 having the fringe 331 serving as the intrusion preventing member prevents a washing liquid, steam, or the like for washing and sterilizing the seaming operation space V from intruding into the penetration hole 327H or mixing in the lubricating oil from below the annular member 312.

REFERENCE SIGNS LIST

[0058] 100 Seaming device [0059] 101 Seaming turret [0060] 102 Carrying-in conveyor [0061] 103 Attachment [0062] 104 Lid supply device [0063] 107 Discharge turret [0064] 108 Carrying-out conveyor [0065] 109 Center shaft [0066] 132 Roll swinging shaft [0067] 151 Driving mechanism [0068] 210 Lid separation unit [0069] 250 Lid conveyance turret [0070] 311 Umbrella-like slinger [0071] 312 Annular member [0072] 313 Annular rail part [0073] 317 O-ring [0074] 315 Fail-safe [0075] 318 Drain flow path [0076] 320 Chuck unit [0077] 321 Chuck [0078] 322 Knockout pad [0079] 323 Outer surface gear [0080] 324 Sun gear [0081] 325 Chuck spindle [0082] 326 Bearing [0083] 327 Table [0084] 327H Penetration hole [0085] 329 Return flow path [0086] 330 Cylindrical sleeve [0087] 331 Fringe [0088] 350 Can mounting unit [0089] 360 Plate [0090] 410 Seaming unit [0091] 450 Seaming lever [0092] 451 Seaming roll (primary seaming) [0093] 452 Seaming roll (secondary seaming) [0094] C Can (before seaming lid) [0095] F Lid [0096] CM Can (after seaming lid) [0097] P Pocket [0098] E Seaming interval [0099] V Seaming operation space [0100] X Central axis