US1729237A - Can-distributing system - Google Patents

Can-distributing system Download PDF

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US1729237A
US1729237A US129322A US12932226A US1729237A US 1729237 A US1729237 A US 1729237A US 129322 A US129322 A US 129322A US 12932226 A US12932226 A US 12932226A US 1729237 A US1729237 A US 1729237A
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trackway
cans
chute
belt
chutes
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US129322A
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John E Albertoli
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G2811/00Indexing codes relating to common features for more than one conveyor kind or type
    • B65G2811/06Devices controlling the relative position of articles
    • B65G2811/0673Control of conveying operations
    • B65G2811/0689Releasing constant material flow
    • B65G2811/0694Releasing constant material flow for permanently occupying the conveyor path

Definitions

  • My invention relates to conveyors, and particularly to conveyors for distributing cans.
  • ()ne of the objects of the invention is the provision of a can distributing system for the efficient and continuous feeding of cans to a plurality of can chutes.
  • Another object of the invention is the provision of conveying mechanism in which means are provided for preventing the jamming of cans over the mouths of the chutes.
  • Figure 1 is a front elevation of a can distributing system embodying my invention. Portions of the structure are omitted to short- 5 en the view.
  • Figure 2 is a vertical sectional View, the plane of section being indicated by the line 2-2 of Figure 1'.
  • Figure 3 is a detail showing part of the driving mechanism; the plane of projection is indicated by the line 3-3 of Figure 2.
  • Figure 4 is a plan view of the driving mechanism, the direction of the view being indicated by the arrow 4 in Figure 3.
  • the can distributing system of my invention comprises a plurality of upright can chutes conveniently arranged adjacent the workers stations and opening at their upper ends into a can trackway, the function of which is to supply the chutes withcans as fast as the cans are removed from the bottom of the chutes by the workers.
  • Means are provided for moving a succession of cans along the trackway and in order to prevent jamming ofthe cans adjacent the opening into the can chutes, means are also provided for intermittently reversing the movement of the succession of cans, so that any pressure between the cans 1s released by the reverse movement and the cans readily fall into the can chutes.
  • each can chute Means are also provided in each can chute to retain the cans therein until the bottom can is extracted by the worker, whereupon the column of cans in each chute moves downwardly one step and a fresh can enters at the top of the chute.
  • the chutes are always full of cans and a can is always available at the bottom for the worker.
  • the distributing 00 system of my invention comprises a succession of sinks 2, along which the workers labor,
  • each station Arranged on suitable framework 3, are shelves 4 upon which the filled cans may be placed, all in thevman- 66 ner common to canneries.
  • each station is a vertically disposed can chute 6 formed by the bars 7 and 8 so arranged as to provide a passage for a single file or succession of cans 9.
  • Means are provided for re- 70 siliently retaining the lowest can in the chute, comprising an arm 11 held by the spring 12 against the side of the can and ivotally mounted on the bracket 13 extending from the side of the chute. Integral with the arm 11 is an arm 14, the end of which is adapted to engage one of the points of the star wheel 16 so disposed.
  • the star wheel is released by the movement of the arm 14 and the weight of the cans then causes the star wheel to revolve until the next succeeding pbint is caught by the recovered arm 14.
  • the arms 11 and 14 therefore act as latches, both for the lowest can in'the chute and the star wheel which controls the movement of the column of cans.
  • I provide a printer roll 17 on the opposite side of the can from the arm 11 so that the desired characters may be applied automatically to the can when it is withdrawn from the chute.
  • the chutes open into the can trackway 18, comprised of the bars 19 and 21 so spaced as to permit a succession of cans to rolltherealong.
  • the bars 19 and 21 are disposed to form a trough for the cans and movement is imparted to the cans by a belt 22 disposed above the trough or trackway and restin upon the cans therein.
  • the belt 1s carried on pulleys 23 and 24 and contact with the cans is insured by rollers 26, each of which is journaled on the endof the arm 27, which may be urged downwardly either by its own wei ht or by the sprin 28.
  • Such rollers may placed at interva s along the inner side of the lower reach of the belt and particularly immediately beforethe entrance into each can chute.
  • shafts 37 and 38 Journaled on each side of the shaft 31 in bearings 34 and 36 and at unequal distances from the shaft 31 are the shafts 37 and 38, the latter of which is provided with a pulley 39 connected by a belt 41 to any suit able source of power.
  • gears 4 and 43 ixed on the shafts 37 and 38 are gears 4 and 43 respectively. These gears are equal in diameter and are in mesh with each other so that the shafts are connected for rotation together at the same speeds and in opposite directions.
  • gears 44 and 46 Last fixed on the shafts 37 and 38 are the gears 44 and 46 respectively, each adapted to mesh with the gear 33 during part of its revolution.
  • each of these last two gears has a" toothless segment ual in arc to the toothed segment of the ot er gear.
  • the relative position of the two gears is such that they alternately mesh with gear 33, that is, when the toothed segment of gear 44 is in mesh with the gear 33, the toothless segment of the gear 46 is turning past the gear 33 without engagement, and as the last tooth of the gear 44 passes out of mesh with the gear 33, the first tooth of the gear 46 meshes with the gear 33. Since the ears turn in opposite directions and are 0? unequal size, it will be seen that the belt 22 which is driven by rotation of the gear 33 will be iven a long step forward by the gear 46 am?
  • a can distributing system comprising a plurality of can chutes, a trackway out of which said chutes extend, a belt for rolling said cans along said trackway, means for moving said belt to roll the cans forwardly, and means for momentarily reversing the direction of said belt to roll the cans backwardly.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, and means for giving to said belt a movement comprising short backward steps interposed between long forward steps.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft for driving said belt, a wheel fixed on said shaft, a driving wheel on each side of said shaft wheel and forming engagement therewith during a part of its revolution, and means for rotating said driving wheels.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft fordriving said belt, a gear wheel fixed on said shaft, a small gear wheel and a larger gear wheel adapted to mesh with said shaft gear wheel and each having a toothless segment equal in arc to the toothed segment of the other, and means for rotating said small and large gear wheels in time so that but one of them forms a driving engagement with the shaft gear wheel at a time.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a. shaft for driving said belt, a gear wheel fixed on said shaft,- a small gear wheel and a larger gear wheel adapted to mesh with said shaft gear wheel and each having a toothless segment equal in area to the toothed segment of the other, and driving connections between said small and large gears to rotate them at the same angular velocity in opposite directions.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft for driving said belt, a gear wheel fixed on said shaft, a pair of shafts adjacent said belt driving shaft, gear wheels for connecting said adjacent shafts for rotation together at equal speeds in opposite directions, and alternately operative driving connections between said ad acent shafts and said belt driving shafts.
  • a can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt for rolling said cans along said trackway and means for imparting movement to said belt.
  • a can distributin system comprising a plurality of separate can chutes, a track- Way out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, and means for imparting movement to said belt.
  • a can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, means 'for imparting movement to said belt and means for pressing the belt against the cans.
  • a can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, means for imparting movement to said belt, and a roller arranged to press the belt against the cans.
  • a can distributin system comprising a can trackway; a can ciute opening downwardly from said trackway, means for rolling cans over said chute, and means for mo mentarily reversing the direction of the rolling motion.
  • a can distributing system comprising a can trackway; a can chute opening downwardl from said trackway, means for moving t e cans over said chute, and means for interrupting the motion at intervals.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, means for rolling cans along the trackway over said chute,
  • a can distributing system comprising a can trackway, a can chute openin downwardly from said trackway, means ior rolling cans along the trackway over said chute, and means for yieldingly retaining cans in said chute.
  • a can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt or rolling cans along said trackway, means for retaining said cans in the chute whereby cans may pass over the chute, and means for imparting movement to the belt.
  • a can distributin system comprising a can trackway, a can c lute opening downwardly from said trackway, means for moving cans along the trackway over said chute, and means for retaining cans in said chute.
  • a can distributing system comprising a can trackway, a plurality. of can chutes opening downwardly from said trackway, means for moving cans along the "trackway over said chutes, and means for retaining cans in said chutes.
  • a can distributin system comprising A a can trackway, a can 0 ute openin downwardly from said trackway, means or moving a succession of cans alon said trackway over said chute, and means or effecting release of pressure between cans to prevent jamming thereof.
  • a can distributing1 system comprising a can trackway, a can 0 ute o enm downwardly from said trackway, a belt Em moving a succession of cans along said trackway over said chute, and means for preventing jamming of the cans.

Description

Sept. 24, 1929. J. E. ALBERTOLI CAN DISTRIBUTING SYSTEM Filed Aug. 16, 1926 llllll IIIIIHI J/YVENDE M HIS ATTORNEY.
Patented Sept. 24, 1929 PATENT OFFICE JOHN E. ALBERTOLI, OF SAN FRANCISCO, CALIFORNIA CAN-DISTRIBUTING SYSTEM Application filed August 16, 1926. Serial No. 129,322.
My invention relates to conveyors, and particularly to conveyors for distributing cans. ()ne of the objects of the invention is the provision of a can distributing system for the efficient and continuous feeding of cans to a plurality of can chutes.
Another object of the invention is the provision of conveying mechanism in which means are provided for preventing the jamming of cans over the mouths of the chutes.
My invention possesses other objects which will be set forth in the description of the preferred embodiment of my invention which is illustrated in the drawings forming part of the specification. It is understood that I do not limit myself to the showing made by the said description and drawings as I may adopt variations of my preferred embodiment within the scope of my invention as set forth in the claims.
Referring to the drawings Figure 1 is a front elevation of a can distributing system embodying my invention. Portions of the structure are omitted to short- 5 en the view.
Figure 2 is a vertical sectional View, the plane of section being indicated by the line 2-2 of Figure 1'.
Figure 3 is a detail showing part of the driving mechanism; the plane of projection is indicated by the line 3-3 of Figure 2.
Figure 4 is a plan view of the driving mechanism, the direction of the view being indicated by the arrow 4 in Figure 3. I
In terms or broad inclusion, the can distributing system of my invention comprises a plurality of upright can chutes conveniently arranged adjacent the workers stations and opening at their upper ends into a can trackway, the function of which is to supply the chutes withcans as fast as the cans are removed from the bottom of the chutes by the workers. Means are provided for moving a succession of cans along the trackway and in order to prevent jamming ofthe cans adjacent the opening into the can chutes, means are also provided for intermittently reversing the movement of the succession of cans, so that any pressure between the cans 1s released by the reverse movement and the cans readily fall into the can chutes. Means are also provided in each can chute to retain the cans therein until the bottom can is extracted by the worker, whereupon the column of cans in each chute moves downwardly one step and a fresh can enters at the top of the chute. Thus the chutes are always full of cans and a can is always available at the bottom for the worker.
In terms of greater detail, the distributing 00 system of my invention comprises a succession of sinks 2, along which the workers labor,
each at his own station. Arranged on suitable framework 3, are shelves 4 upon which the filled cans may be placed, all in thevman- 66 ner common to canneries. Opposite each station is a vertically disposed can chute 6 formed by the bars 7 and 8 so arranged as to provide a passage for a single file or succession of cans 9. Means are provided for re- 70 siliently retaining the lowest can in the chute, comprising an arm 11 held by the spring 12 against the side of the can and ivotally mounted on the bracket 13 extending from the side of the chute. Integral with the arm 11 is an arm 14, the end of which is adapted to engage one of the points of the star wheel 16 so disposed. as to intrude another of its points into the chute to hold up the column of cans therein. When the worker draws down the lower can in the chute, the star wheel is released by the movement of the arm 14 and the weight of the cans then causes the star wheel to revolve until the next succeeding pbint is caught by the recovered arm 14. The arms 11 and 14: therefore act as latches, both for the lowest can in'the chute and the star wheel which controls the movement of the column of cans. In accordance with the usual practice I provide a printer roll 17 on the opposite side of the can from the arm 11 so that the desired characters may be applied automatically to the can when it is withdrawn from the chute. At the; upper ends, the chutes open into the can trackway 18, comprised of the bars 19 and 21 so spaced as to permit a succession of cans to rolltherealong. The bars 19 and 21 are disposed to form a trough for the cans and movement is imparted to the cans by a belt 22 disposed above the trough or trackway and restin upon the cans therein. The belt 1s carried on pulleys 23 and 24 and contact with the cans is insured by rollers 26, each of which is journaled on the endof the arm 27, which may be urged downwardly either by its own wei ht or by the sprin 28. Such rollers may placed at interva s along the inner side of the lower reach of the belt and particularly immediately beforethe entrance into each can chute.
Movement of the belt will of course roll the cans along the trackway, but it is found that when the belt moves continuously in one direction, there is a tendenc for the cans to jam together and miss fa lin into the chute openings. In order to 0 viate this I provide means for reversing the direction of movement of the belt at intervals, so as to release the cans and permit them to as sume their natural osition. The pulley 24 is fixed on the sha t 31, suitably journaled in bearings 32 mounted on the frame 3 and having a gear wheel 33 fixed at the opposite end. Journaled on each side of the shaft 31 in bearings 34 and 36 and at unequal distances from the shaft 31 are the shafts 37 and 38, the latter of which is provided with a pulley 39 connected by a belt 41 to any suit able source of power. ixed on the shafts 37 and 38 are gears 4 and 43 respectively. These gears are equal in diameter and are in mesh with each other so that the shafts are connected for rotation together at the same speeds and in opposite directions. Last fixed on the shafts 37 and 38 are the gears 44 and 46 respectively, each adapted to mesh with the gear 33 during part of its revolution. By an inspection of Figure 3, it will be I seen that each of these last two gears has a" toothless segment ual in arc to the toothed segment of the ot er gear. The relative position of the two gears is such that they alternately mesh with gear 33, that is, when the toothed segment of gear 44 is in mesh with the gear 33, the toothless segment of the gear 46 is turning past the gear 33 without engagement, and as the last tooth of the gear 44 passes out of mesh with the gear 33, the first tooth of the gear 46 meshes with the gear 33. Since the ears turn in opposite directions and are 0? unequal size, it will be seen that the belt 22 which is driven by rotation of the gear 33 will be iven a long step forward by the gear 46 am? a short step rearward by the gear 44 and that so long as the shaft 38 is rotating, the two gears 44 and 46 will alternately engage the gear 33 and im art to the belt this intermittent forward an reverse movement. The velocityof the gears is quite low so that there is no tendency or the gear 33 to overshoot, which if it occurred would of course cause difiicult in the meshing of the teeth. The cans are e'd into the trackway 18 from the trackway 47 supplied with cans in the usual way.
I claim 1. A can distributing system comprising a plurality of can chutes, a trackway out of which said chutes extend, a belt for rolling said cans along said trackway, means for moving said belt to roll the cans forwardly, and means for momentarily reversing the direction of said belt to roll the cans backwardly.
2. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, and means for giving to said belt a movement comprising short backward steps interposed between long forward steps.
3. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft for driving said belt, a wheel fixed on said shaft, a driving wheel on each side of said shaft wheel and forming engagement therewith during a part of its revolution, and means for rotating said driving wheels.
4. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft fordriving said belt, a gear wheel fixed on said shaft, a small gear wheel and a larger gear wheel adapted to mesh with said shaft gear wheel and each having a toothless segment equal in arc to the toothed segment of the other, and means for rotating said small and large gear wheels in time so that but one of them forms a driving engagement with the shaft gear wheel at a time.
5. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a. shaft for driving said belt, a gear wheel fixed on said shaft,- a small gear wheel and a larger gear wheel adapted to mesh with said shaft gear wheel and each having a toothless segment equal in area to the toothed segment of the other, and driving connections between said small and large gears to rotate them at the same angular velocity in opposite directions.
6. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt for rolling cans along said trackway over said chute, a shaft for driving said belt, a gear wheel fixed on said shaft, a pair of shafts adjacent said belt driving shaft, gear wheels for connecting said adjacent shafts for rotation together at equal speeds in opposite directions, and alternately operative driving connections between said ad acent shafts and said belt driving shafts.
7. A can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt for rolling said cans along said trackway and means for imparting movement to said belt.
8. A can distributin system comprising a plurality of separate can chutes, a track- Way out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, and means for imparting movement to said belt.
9. A can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, means 'for imparting movement to said belt and means for pressing the belt against the cans.
10. A can distributing system comprising a plurality of separated can chutes, a trackway out of which said chutes extend, a belt adapted to rest upon the cans in said trackway and roll them therealong, means for imparting movement to said belt, and a roller arranged to press the belt against the cans.
11. A can distributin system comprising a can trackway; a can ciute opening downwardly from said trackway, means for rolling cans over said chute, and means for mo mentarily reversing the direction of the rolling motion.
12. A can distributing system comprising a can trackway; a can chute opening downwardl from said trackway, means for moving t e cans over said chute, and means for interrupting the motion at intervals.
13. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, means for rolling cans along the trackway over said chute,
and means for retaining cans in said chute.
14. A can distributing system comprising a can trackway, a can chute openin downwardly from said trackway, means ior rolling cans along the trackway over said chute, and means for yieldingly retaining cans in said chute.
15. A can distributing system comprising a can trackway, a can chute opening downwardly from said trackway, a belt or rolling cans along said trackway, means for retaining said cans in the chute whereby cans may pass over the chute, and means for imparting movement to the belt.
16. A can distributin system comprising a can trackway, a can c lute opening downwardly from said trackway, means for moving cans along the trackway over said chute, and means for retaining cans in said chute.
17. A can distributing system comprising a can trackway, a plurality. of can chutes opening downwardly from said trackway, means for moving cans along the "trackway over said chutes, and means for retaining cans in said chutes.
19. A can distributin system comprising A a can trackway, a can 0 ute openin downwardly from said trackway, means or moving a succession of cans alon said trackway over said chute, and means or effecting release of pressure between cans to prevent jamming thereof.
20. A can distributing1 system comprising a can trackway, a can 0 ute o enm downwardly from said trackway, a belt Em moving a succession of cans along said trackway over said chute, and means for preventing jamming of the cans.
In testimony whereof, I have hereunto set my hand.
JOHN E. ALBERTOLI.
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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2583313A (en) * 1945-12-03 1952-01-22 Albertoli John Can feeding device
US2587959A (en) * 1949-06-04 1952-03-04 Biner Siegrist Machinery Mfg C Nonjamming conveyer means
US2593965A (en) * 1946-05-15 1952-04-22 Robert Gair Co Inc Carton feeding apparatus
US2597852A (en) * 1946-03-02 1952-05-27 Upjohn Co Bottle-filling machine with conveyer for conveying bottles to an elevator and pusher for pushing bottles from elevator to filling position
US2602276A (en) * 1946-02-27 1952-07-08 Samuel J Campbell Wrapping machine
US2645327A (en) * 1948-01-16 1953-07-14 Brock & Rankin Jog feeder for books
US2682331A (en) * 1946-02-27 1954-06-29 Samuel J Campbell Infeed conveyer, particularly designed for use in wrapping machines
US2736419A (en) * 1954-07-15 1956-02-28 Read Standard Corp Pusher bar retractor for bread cooler
US3214004A (en) * 1962-12-12 1965-10-26 Hydromation Engineering Compan Conveyor system
DE1254074B (en) * 1962-02-03 1967-11-09 F Jos Lamb Company Inc Conveyor system for loading several processing stations arranged in parallel
US3493126A (en) * 1968-07-22 1970-02-03 Fmc Corp Pallet loader
DE1756794C (en) 1967-08-18 1973-01-18 Kone Osakeyhtiö, Helsinki/FI Device for distributing lumber to grinding machines, bark peeling machines or the like arranged one after the other.
US6267221B1 (en) * 1996-12-12 2001-07-31 I.M.A. Industria Macchine Automatiche S.P.A. Conveying system for carrying containers, especially bottles, through different working stations

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2583313A (en) * 1945-12-03 1952-01-22 Albertoli John Can feeding device
US2682331A (en) * 1946-02-27 1954-06-29 Samuel J Campbell Infeed conveyer, particularly designed for use in wrapping machines
US2602276A (en) * 1946-02-27 1952-07-08 Samuel J Campbell Wrapping machine
US2597852A (en) * 1946-03-02 1952-05-27 Upjohn Co Bottle-filling machine with conveyer for conveying bottles to an elevator and pusher for pushing bottles from elevator to filling position
US2593965A (en) * 1946-05-15 1952-04-22 Robert Gair Co Inc Carton feeding apparatus
US2645327A (en) * 1948-01-16 1953-07-14 Brock & Rankin Jog feeder for books
US2587959A (en) * 1949-06-04 1952-03-04 Biner Siegrist Machinery Mfg C Nonjamming conveyer means
US2736419A (en) * 1954-07-15 1956-02-28 Read Standard Corp Pusher bar retractor for bread cooler
DE1254074B (en) * 1962-02-03 1967-11-09 F Jos Lamb Company Inc Conveyor system for loading several processing stations arranged in parallel
US3214004A (en) * 1962-12-12 1965-10-26 Hydromation Engineering Compan Conveyor system
DE1756794C (en) 1967-08-18 1973-01-18 Kone Osakeyhtiö, Helsinki/FI Device for distributing lumber to grinding machines, bark peeling machines or the like arranged one after the other.
US3493126A (en) * 1968-07-22 1970-02-03 Fmc Corp Pallet loader
US6267221B1 (en) * 1996-12-12 2001-07-31 I.M.A. Industria Macchine Automatiche S.P.A. Conveying system for carrying containers, especially bottles, through different working stations

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