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Publication numberUS3553932 A
Publication typeGrant
Publication dateJan 12, 1971
Filing dateFeb 5, 1969
Priority dateFeb 5, 1969
Publication numberUS 3553932 A, US 3553932A, US-A-3553932, US3553932 A, US3553932A
InventorsRowekamp Edward F
Original AssigneeLodge & Shipley Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Case packer having floating guides
US 3553932 A
Abstract  available in
Images(5)
Previous page
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Claims  available in
Description  (OCR text may contain errors)

' E. F. RowEKA'M'P .CASE PACKER HAvIVNG FLOATING GUIDES 5 sheets-sheet 2 v FiiedjFeb.-5,-19e9 INVENTOR.

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' l BYMA/ 1%.] Mm wa United States Patent O 3,553,932 CASE PACKER HAVING FLOATING GUIDES Edward F. Rowekamp, Cincinnati, Ohio, assignor to The Lodge & Shipley Company, Cincinnati, Ohio, a corporation of Ohio Filed Feb. 5, 1969, Ser. No. 796,703 Int. Cl. B65b 21/02 U.S. Cl. 53--166 4 Claims ABSTRACT OF THE DISCLOSURE Apparatus having a bottle conveyor, a case conveyor, and means for transporting bottles between the bottle conveyor and the case conveyor, the means including a lifting head having pickup cups depending therefrom and a bottle guide carried by said lifting head for holding said bottles from swinging and banging into each other `during transport between said bottle conveyor and said case conveyor and for assisting the guiding of said bottles into said case.

Y that apparatus, bottles are marshaled above a grid which forms a bottle guide and a case. is located below the grid. The case is raised as close as possible to the grid and the bottles are released so as to pass through the grid and to be guided into the case by fingers which project from the grid into the cells of the case. While this apparatus performs very satisfactorily, there are a number of factors which limit the speed with which the cases can be packed, and at best it is possible to pack only approximately twenty-five cases per minute.

Another bottle-handling mechanism presently in use is the uncaser shown in the MeierjohanPat. No. 2,695,190 and McHugh Pat. No. 2,873,996, for example. That apparatus is especially adapted to unpack as many as live cases at a time. It employs a lifting head for each case, the lifting head having lifting devices which preferably are of the inflatable cup type shown in the Meierjohan and McHugh patents. The lifting heads are moved over the cases packed with empty bottles and the lifting cups engage the bottles and lift them out and carry them over to a conveyor table on which they are carried away for further processing. The uncaser is a comparatively simple and reliable mechanism which is capable of comparatively high speeds which permit the uncasing of up to -iifty cases per minute with a -five head uncaser.

In the copending application of Henry T iews, Ser. No. 710,102, filed Mar. 4, 1968, and now Pat. No. 3,505,787 there is disclosed an apparatus for lifting marshaled bottles and depositing them into cases. One of the problems for which that invention provides a solution is that the high speed movement of the bottles from one position to another in a cluster causes the bottles to bang together. Where the bottles are filled as in the case of bottled beverages, any frequent instances of breakage during transport cannot be tolerated. The problem is particularly acute in bottle-handling mechanisms of the type described wherein the lifting cups are suspended by tubes which permit a necessary lateral movement of the cups to conform to the spacing of the bottles.

yIn solving that problem, the Tiews invention provides a bottle guide which is carried below the lifting head, the bottle yguide serving to guide the bottles into the case during release, and, perhaps more importantly, to hold the bottles separate from each other within the pockets of the guide as the lifting head is moved from the marshaling station to the case.

As disclosed in the Tiews application, the bottle guide is caused to move up and down with respect to the lifting head by pistons and cylinders. The operation generally is that the guide is first carried above the lifting devices, such as the cups, until the marshaled bottles are grasped, then the pistons and cylinders cause relative movement of the guide and lifting head to draw the bottles up into the guide. In this relation, the bottles are transported to the cases and the assembly is lowered into the cases. Thereafter, the pistons and the cylinders move the lifting head downwardly relative to the guide to deposit the bottles into the cases.

The objective of the present invention 'has been to improve upon the mechanism for providing relative movement between the guide and the lifting head. To this end, the invention provides a transversely moving carriag'e supporting a lifting head having downwardly depending lifting devices. A bottle guide is slidably mounted for vertical movement on the lifting head, the lifting head having lower stops defining the position of the guide during the transporting of the bottles and the apparatus having abutments adjacent the bottle and case conveyors which are engaged by the guide to determine the relative position of the guide with respect to the lifting head during pickup and release of the bottles. With this apparatus, at the bottle marshaling station, the guide comes to rest on its abutments and the lifting devices, such as the cups, are projected through the guide to pick up the bottles and thereafter draw them up into the guide by the upward movement of the transverse carriage. The transverse carriage continues to move upwardly and over to the case conveyor. It then descends and the guide engages the abutments associated with the case conveyor to limit the extent of the downward movement and the bottles continue to move downwardly until they are deposited gently in the bottom of the case.

The several features of the invention will become more readily apparent from the following detailed description taken in conjunction with the accompanying drawings in 'whichz FIG. l is a perspective view of the apparatus of the invention,

FIG. 2 is a front elevational view of the apparatus,

FIG. 3 is a side elevational view, partly in section, of the apparatus,

FIGS. 4, 5 and 6 are diagrammatic fragmentary crosssectional views looking toward the front of the apparatus illustrating the sequence of operations,

FIG. 7 is a side elevational view similar to FIG. 3 illustrating the deposit of the bottles into their cases,

FIG. 8 is `a cross-sectional view along lines 8 8 of FIG. 7,

FIG. 9 is a cross-sectional view along lines 9-9 of FIG. 8.

GENERAL ORGANIZATION AND OPERATION Referring to FIGS. l and 2, the packing apparatus is indicated generally at 10 and includes a frame 11 which supports a transverse carriage 12 for a lifting head 13. A case conveyor 14 passes within the frame 11 for conveying cases 15. An article or bottle conveyor 16 carries bottles 17 up to a marshaling station 18 and marshals them into patterns adapted to be picked up by the head 13.

The head 13 carries cups 20 on flexible stems or tubes 21. While the cups of the type shown in the Meierjohan and McHugh patents are preferred, it should be understood that the lifting devices 20 can also be of the type providing internal or external gripping fingers or can be suction devices.

A bottle guide or grid 22 having pockets 23 (FIGS. 4, and 6) and guide fingers 24 depending from the pockets is Supported below the lifting head. While the invention will be described in relation to a bottle guide having pockets and guide fingers, it should be understood that the mechanism of the invention which determines the relative movement of the guide with respect to the lifting head is not dependent upon a guide having pockets and guide fingers and is equally applicable to a guide which is simply a rectangular ring surrounding the pattern of bottles to be deposited into a particular case. Preferably, the guide has vertical rods 26 slidably received in bushings 27 mounted on the transverse carriage 12 so as to permit the guide to move vertically relative to the lifting cups. Stops 28 fixed on the upper ends of rods 26 limit the downward extent of the movement of the guide 22.

The frame 11 supports stops or abutments 30 and 31 adjacent the case conveyor 14. The abutments 30 and 31 are engageable by depending legs 32 and 33 respectively to limit the downward extent of movement of the guide 22 over the case conveyor 14. At the marshaling station 18, similar abutments 34 and 3S are provided, these abutments being engageable by the legs 32 and 33 to limit the downward extent of the movement of the guide 22 over the marshaling station.

In the general operation, the transverse carriage 12 carries the lifting head 13 over the marshaled bottles and then moves straight down carrying the guide fingers 24 over the bottles 17 as shown in FIG. 3. As the legs 32 and 33 of the guide engage the abutments 34 and 35 the guide stops and the cups continue to move downwardly to engage the bottles (FIGS. 4 and 5). After the cups engage the bottles, they are inflated to grip the bottles and then lift the bottles up within the guide 22. The carriage 12 carries the lifting heads with the bottles captured within the guide over the cases and then moves straight downwardly into the cases. As can be seen from FIG. 6, the guide fingers first move into the case cells and then the guide is blocked from further downward movement by the engagement of legs 32 and 33 with the abutments 30 and 31. As the cups continue to move downwardly, they carry the bottles almost to the bottom of the case, at which point the inflating pressure is released to permit the bottles to drop within the case (FIG. 7).

THE LIFTING AND GUIDE ASSEMBLY It is contemplated that from one to five lifting heads would be provided in a case packing machine, five being illustrated in FIG. 2 The lifting heads are supported from a beam structure 40 as best shown in FIGS. 1 and 2. The beam structure is carried by vertical supports 41 which are mounted on the carriage 12 to be described in detail below.

Each lifting head is preferably the same in all material respects as those described in the Meierjohan and Mc- Hugh patents and includes a manifold 43 from which flexible tubes 21 are supported. The cups 20 are carried on the lower ends of the flexible tubes 21, the tubes and cups being arranged in a pattern corresponding to that of the case cells, as, for example, four rows of six cups each. Suitable hose connections are made to the manifold in order to supply uid, as, for example, air, under pressure to the cups and to effect the application of that air pressure.

Each manifold has laterally projecting flanges 44 which support the bushings 27 through which the rods 26 pass. The lower ends of the rods 26 are fixed to the guide 22. The stops 28 at the upper ends of the rods 26 are split clamps which are bolted together and whose vertical position on the rods 26 can be adjusted thereby providing an 4 adjustment to determine the lowermost position of the guide with respect to the lifting head.

The grid is formed by a matrix of longitudinal and transverse members 46. This matrix forms a pattern of pockets 23 immediately underlying and aligned with the pattern of cups 20. Depending from each pocket are the four guide fingers 24 which are flexible and which seek the respective cell into which a bottle is to be deposited and guide the bottle into the cell. Such guide fingers are commonly used in case packers as shown, for example, in the patent to Rowekamp No. 3,353,331.

`It should be understood that the guide of the type illustrated having separate brackets for guide fingers for each bottle is a preferred embodiment of floating or traveling guide for use in packing cases wherein the bottles are to be deposited in individual cells. There are, however, applications wherein cases not having cells are to be packed. In such event, the guide may comprise just the peripheral frame which would surround a pattern of articles. Such a frame could llare downwardly so that when drawn up into the frame by the lifting head, the pattern of articles would be brought close together to avoid collisions during transport. Further, the inside surface of the guide may be lined with a resilient material to minimize further the possibility of article breaking collisions.

The abutment 30 engaged by the long leg 32 of the guide 22 is formed by a dead plate 47 which supports the cases as they pass through the packing station. At the upstream end of the case conveyor, the short leg 33 of the guide 22 is engageable with a plate 48 which forms the abutment 31. The plate extends across the case conveyor and is supported at each end by posts 49 (FIG. l).

Similarly, at the marshaling station, the abutment 34 is formed by a block 50 which is mounted on the frame of the apparatus and located to one side of the bottle conveyor 16. The abutment 35 is formed by a tall block 51 which is located at the other side of the bottle conveyor 16. It will be observed from viewing FIG. 2 that the abutments at the bottle marshaling station are slightly higher than the abutments at the case packing station so as to raise slightly the downward limit of movement of the guide.

Since all guides are mouned on the elongated beam structure 40 the abutments and the legs engaged by the abutments are required to be located only at the extreme ends of the transverse carriage.

Adjustment of the relative position of the guides with respect to the lifting heads may be made simply by substituting shorter or longer vertical rods 26 to vary their length.

THE BOTTLE AND CASE CONVEYORS The bottle and case conveyors may be those which are conventionally used in marshaling bottles on the one hand and in conveying cases to the known uncasing apparatus on the other hand. Referring to the case conveyor, it is formed of two chains 55 and the supporting plate 47 between the chains. The chains carry vertical lugs 57 which are adapted to engage the trailing end of a case to push it into position. A timing mechanism, not shown, is used to stop the cases at a precise position underneath the transverse carriage 12 so that case cells shown at 58 (FIG. 6) are aligned with the pattern of guide fingers and cups of the lifting and guide assembly. A slightly alternative form of case conveyor could be that disclosed in the Rowekamp Pat. No. 3,185,288.

The bottle marshaling conveyor includes a broad metallic endless belt 60 which runs transversely to the direction of the case conveyor and which brings files of bottles up to individual stops 61 (FIG. 3). The stops are connected to a piston and cylinder 62 which can be operated to move toward the solid line position as viewed in FIG. 3 to relieve the pressure on the bottles after the conveyor `belt has been braked. The bottles are marshaled into their individual files by spaced guides 63. Upstream of the stops 61 are a series of detector fingers 64 pivoted at 65 and engageable by the bottles as they pass under the detector iingers toward the stops 61. When each le is iilled with the required number of bottles, the bottles will be blocked from further movement by their engagement with the stop 61 in the respective iiles and in this position, one of the upstream bottles will hold its respective guide finger in an angulated position. In that position, the upper end of the finger, indicated at 66, will be held out of the path of a beam of light associated with a photoelectric assembly indicated at 67. The photoelectric assembly is in a circuit which cycles the operation of the apparatus and after a slight time delay (to avoid inadvertent actuation) initiates the cycling operation which includes the braking of the conveyor 16, the release of the stop 61 and the movement of the transverse carriage.

TRANSVERSE CARRIAGE FOR THE HEAD ASSEMBLY Referring to FIGS. 7, 8 and 9, the transverse carriage 12 for the head assembly includes two chains 70 passing around upper and lower sprockets 72 and 71. The upper sprockets are fixed to a shaft 73 journaled at 74 in a supporting frame including two vertical plates 75. Similarly, the lower sprockets 71 are fixed to a shaft 76 journaled at 77 in the supporting plates 75. A pinion gear 78 is fixed to the center of the shaft 76 and meshes with a rack 79 which is slidable in ways 80. The rack 79 is connected to a piston rod 81 which is driven by a double acting piston and cylinder assembly 82. Thus, as the piston rod 81 reciprocates, it, through the rack 79, causes the pinion 78 to rotate. The pinion rotates shaft 76 and -in turn the sprocket and chain assembly.

The posts 41 which carry the head and guide assembly are fixed at their upper ends to the chains 70. Specifically, the chains 70 carry blocks 85 to wich a transverse shaft 86 is fixed and the posts 41 are mounted on the blocks 85. A pantograph linkage 87 is connected to the blocks 85 to assure the proper vertical orientation of the posts 41. The shaft 86 rides in vertical slots 88 in frame 75 during its vertical descent to provide further assurance of proper alignment in preventing skewing of the posts 41.

Still further, the posts 41 carry depending spaced arms 89 which form slots 90. The slots 90 pass over rollers 91 during the descent of the carriage, thereby providing further protection against skewing.

DETAILED DESCRIPTION OF THE OPERATION A timing mechanism, which is not shown, programs the operation of the carriage 12 by selectively applying uid pressure to the respective ends of the double-acting cylinder 82 and programs the actuation of the lifting cups by selectively applying and releasing fluid pressure to the lifting cups. v

The apparatus, in FIG. 3, is in an intermediate stage in which the empty lifting cups are moving toward the bottles 17 on the conveyor 16. The movement of the lifting head and guide toward the bottles is caused by the carriage which is in turn operated by the piston 82 driving rack 79 toward the left to rotate the pinion 78. The pinion in turn rotates shaft 76 to which it is fixed causing the righthand flight of the conveyor chain to move downwardly carrying with it the post 41. As the posts 41 descend, the legs 32 and 33 of guide 22 engage the abutments 34 and 35 to block further downward movement of the guide as shown in FIG. 4. In this position the guide fingers 24 overlie and are in alignment with a pattern of bottles. Continued downward movement of the support 41 brings the lifting cups 20 into engagement with the necks of the bottles. A lack of precise alignment of the cups with the bottles is compensated for by the ared mouths of the lifting cups coupled with the exible tubes 21 by which they are supported.

The engagement of the lifting cups with the bottles is illustrated in FIG. 5. In this position, the flexible bladders within the cups are inflated thereby firmly gripping the bottles. When the bottles are firmly gripped, the application of pressure to the cylinder 82 is reversed causing the rack to move toward the right thereby lifting the posts 41 vertically, swinging them over to the case conveyor and lowering them to pack the bottles in the case. During the initial upward movement of the posts 41, the guide 22 remains fixed upon the abutments 34 and 35 and the lifting cups draw the bottles upwardly within the matrix of transverse and longitudinal members which form the guide. The precise vertical position of the bottles within the guide is not critical but it is important that the bottles be captured or encased within the guide so that they do not bang against one another during transport to the cases.

As the carriage 12 carries the bottles over to the cases on the case conveyor, the guide ngers 24 become aligned with the case cells. During the last portion of the downward movement of the posts 41, the ngers 24 project slightly into the case cells and thereafter the guide is blocked from further downward movement by the engagement of the legs 32 and 33 with the abutments 30 and 31 (FIG. 6). The lifting head continues moving downwardly to bring the bottles into a position at approximately the bottom of the case whereupon the air pressure to the lifting cups is released (FIG. 7).

The pressure to the conveyor cylinder 82 is reversed causing the posts 41 to move upwardly, As the posts move upwardly, they bring the guide bushings on the lifting heads into engagement with the stops 28 on the rods 26 to carry the guide back to the marshaling position.

Having described my invention, I claim:

1. An apparatus including a case conveyor having means to stop a case in a packing position, and an article conveyor having means to marshal articles in a pattern; a packing mechanism adjacent said conveyors for transferring articles from their conveyor to a case, said mechanism comprising,

a transverse carriage,

means for moving said carriage up, transversely, and

down between a pickup position overlying said articles and a release position overlying said case,

a guide carried by said carriage and slidably mounted on said carriage for Vertical movement,

a plurality of lifting devices depending from said carriage and aligned with said guide,

an abutment means at said article conveyor engageable by said guide to block its downward movement, thereby permitting said lifting devices to pass through said guide and to pick up articles.

2. Apparatus according to claim 1 further comprising,

a plurality of vertical rods mounted on said guide,

a plurality of bushings mounted on said carriage and slidably receiving said rods,

and stops mounted at the upper ends of said rods whereby as said carriage moves upwardly said bushings slide upwardly with respect to said rods until they engage said stops and thereafter said carriage lifts said guide.

3. Apparatus according to claim 1 further comprising,

abutment means associated with said case conveyor and engageable by said guide to block its downward movement thereby limiting the extent of downward movement of said guide with respect to cases on said case conveyor.

4. Apparatus comprising,

a case conveyor for moving at least one case in a longitudinal direction,

an article conveyor for moving a plurality of bottles in a direction normal to said case conveyor and marshaling them into a pattern,

a carriage movable between said conveyors to lift articles vertically from their conveyor and to deposit them verticaly into a case, said carriage including,

a lifting head having downwardly depending de- References Cited vices for gripping said articles, UNITED STATES PATENTS a guide supported for vertical movement on said lifting head and aligned with said gripping de- 3,335,542 8/ 1967 Van Luxemborg 53248X vices t0 permit said devices to hold said articles 5 3,505,787 4/1970 TieWS 53-166 within the confines of said guide, an abutment means associated with the case conveyor THERON E. CONDON, Primary Examiner and article conveyor respectively, said abutment R L SPRUILL Assistant Examiner means being engageable by said guide to limit the downward extent of its movement while said carriage with its lifting head continues its downwad move- 10 U'S' C1' X'R ment. 53-247

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3911647 *Jan 23, 1974Oct 14, 1975Hartness Robert GPositioning arm for case loader
US4240237 *Oct 30, 1978Dec 23, 1980Alduk Dennis FContainer lifting, transporting and releasing apparatus
US5117611 *Feb 6, 1990Jun 2, 1992Sunkist Growers, Inc.Method and apparatus for packing layers of articles
US5797249 *Oct 24, 1996Aug 25, 1998Hartness International, Inc.Continuous motion case packing apparatus and method
US6006493 *Dec 23, 1997Dec 28, 1999Focke & Co.Apparatus for filling cartons
US6571532Apr 28, 1999Jun 3, 2003Hartness International, Inc.Continuous motion case packing apparatus and method
US6722101Aug 29, 2002Apr 20, 2004Hartness International, Inc.Continuous circular motion case packing and closure apparatus and method
US6729103Oct 15, 1999May 4, 2004Hartness International, Inc.Continuous circular motion case packing and depacking apparatus and method
US6748725Feb 5, 2002Jun 15, 2004Hartness International, Inc.Continuous circular motion case packing and depacking apparatus and method
US6883296Aug 8, 2003Apr 26, 2005Hartness International, Inc.Case tab-lock slitting and flap sealer in combination with a continuous radial motion case packing apparatus and method
US6983577Oct 21, 2002Jan 10, 2006Hartness International, Inc.Circular motion filling machine for processing parallel rows of containers and method
US7114535Aug 28, 2003Oct 3, 2006Hartness International, Inc.Circular motion filling machine and method
US7278531Jun 29, 2004Oct 9, 2007Hartness International, Inc.Flexible conveyor and connection elements
US7299832Jun 29, 2004Nov 27, 2007Hartness International, Inc.Rotary filling machine and related components, and related method
US7331156Jun 29, 2004Feb 19, 2008Hartness International, Inc.System for securely conveying articles and related components
US7552570 *Feb 28, 2005Jun 30, 2009Standard Knapp Inc.Packaging machine
US7703260Jun 15, 2007Apr 27, 2010Watkins Norman MCircular motion case packing system
US8033082 *May 20, 2009Oct 11, 2011Standard Knapp Inc.Packaging machine
WO1996015031A1 *Nov 8, 1995May 23, 1996Hartness Int IncContinuous motion case packing apparatus and method
Classifications
U.S. Classification53/539, 53/247
International ClassificationB65B21/18, B65B21/00, B65B39/00
Cooperative ClassificationB65B39/006, B65B21/18
European ClassificationB65B21/18, B65B39/00B
Legal Events
DateCodeEventDescription
Mar 17, 1987ASAssignment
Owner name: MANUFLEX CORPORATION, 1328 ELAM ST., CINCINNATI, O
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:LODGE & SHIPLEY COMPANY;REEL/FRAME:004678/0269
Effective date: 19870227