ZIEGLER KELLY W
| US1874669A | 1932-08-30 | |||
| US3483668A | 1969-12-16 | |||
| US2971309A | 1961-02-14 | |||
| US2918765A | 1959-12-29 | |||
| US4815251A | 1989-03-28 | |||
| US3826058A | 1974-07-30 | |||
| US4611705A | 1986-09-16 | |||
| US3201912A | 1965-08-24 |
| 1. | What is claimed is: A method for packaging articles, comprising the steps of: (a) supplying a stream of packaging units; (b) supplying at least one input stream of articles substantially peφendicularly with respect to the stream of packaging units; (c) forming a flat, single layer article group at a terminal end ofthe at least one input stream of articles; and (d) substantially peφendicularly loading the article group into a packaging unit in the stream of packaging units. |
| 2. | The method of claim 1 , wherein a pair of input streams of articles is supplied, a second flat, single layer article group being formed and loaded into the packaging unit, on top ofthe first article group disposed therein, whereby stacked article groups are formed in the packaging unit. |
| 3. | The method of claim 2, further comprising the step of depositing a divider sheet on top ofthe first article group prior to its being loaded in the packaging unit, the second article group being slid across the divider sheet. |
| 4. | The method of claim 3, wherein the first article group is selected from a first stream of articles disposed at a first vertical level, and the second article group is selected from a second stream of articles disposed at a second vertical level above the first vertical level, the first and second article groups being aligned with packaging units disposed and moving on the stream of packaging units, each first article group being laterally moved into a packaging unit at a predetermined point and from a first lateral side of the stream of packaging units, and each second article group being laterally moved onto the support base at a second predetermined point and from the first lateral side ofthe stream of packaging units. |
| 5. | The method of Claim 4, wherein the divider sheet is constructed of paperboard and has a thin, substantially flat, rectilinear configuration with a surface area substantially coextensive with that of a top surface of the first article group, and wherein the articles are beverage cans and wherein the packaging units are paperboard cartons with open ends bounded by flaps. |
| 6. | The method of claim 1 , wherein the step of forming a flat, single layer article group is accomplished by at least one set of stop pins and a staging bar. |
| 7. | The method of claim 1 , wherein the step of loading the article group into a packaging unit is accomplished by a loading arm. |
| 8. | A method of forming a stacked article group within a packaging unit, comprising the steps of: (a) supplying a stream of packaging units; (b) supplying low and high streams of articles peφendicularly with respect to the stream of packaging units, each stream of articles having a terminal end; (c) forming low and high flat, single layer article groups at the respective terminal ends ofthe low and high streams of articles by utilizing at least one set of stop pins and one staging bar for each stream; (d) placing a support base on a top surface ofthe low article group; (e) loading the low article group into a packaging unit on the packaging unit stream which is aligned with the low article steam by utilizing a loading arm; (f) moving the loaded packaging unit on the packaging unit steam into alignment with the high article stream; and (g) loading the high article group into the loaded packaging unit over the support base by utilizing a loading arm. |
| 9. | A packaging apparatus, comprising: (a) a packaging unit line transporting a stream of packaging units; (b) at least one input article line transporting at least one stream of articles, each input article line having a terminal end region disposed adjacent the packaging unit line, said input article line approaching the packaging unit line substantially peφendicularly; and (c) an article group selection and loading mechanism disposed at the terminal end region ofthe at least one input article line, the article group selection and loading mechanism forming an article group and loading the article group in a packaging unit on the packaging unit line. |
| 10. | The apparatus of claim 9, wherein said packaging unit line is a rectilinear structure and comprises a conveyor having a plurality of spaced flights, said conveyor, the packaging unit line further having means to place packaging units between the flights, and wherein said at least one input article line is a rectilinear structure and comprises a conveyor having at least one article lane for transporting articles in a single file orientation. |
| 11. | The apparatus of claim 9, wherein the article group selection and loading mechanism comprises: (i) a deadplate disposed between the input article line and the packaging unit line for supporting articles moving across from the input article line to the packaging unit line, the deadplate having a plurality of apertures disposed therein in a predetermined configuration; (ii) at least one set of stops extendible above the deadplate through the apertures for selectively engaging and releasing articles on the deadplate; and (iii) article group movement means disposed above the deadplate for controlling movement ofthe article group toward the packaging unit line. |
| 12. | The apparatus of claim 11 , wherein the deadplate has a flat top surface with predetermined longitudinal and lateral dimensions and constructed of a low friction material, the apertures being disposed linearly and laterally. |
| 13. | The apparatus of claim 11 , wherein the stops include a plurality of stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement of articles from the at least one input article line from crossing the deadplate. |
| 14. | The apparatus of claim 11 , wherein the stops include a plurality of stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement ofthe article group across the deadplate. |
| 15. | The apparatus of claim 11 , wherein the stops comprise: (i) a plurality of infeed line stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement of articles from the at least one input article line from crossing the deadplate; and (ii) a plurality of pack pattern line stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement ofthe article group across the deadplate. |
| 16. | The apparatus of claim 11 , wherein the article group movement means includes an extendible and retractable bar which is horizontally and laterally arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to lead and control the article group moving toward packaging unit line. |
| 17. | The apparatus of claim 11 , wherein the article group movement means includes an extendible and retractable arm assembly which is vertically arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to follow and control the article group moving toward the packaging unit line. |
| 18. | The apparatus of claim 1 1 , wherein the article group movement means comprises: (i) an extendible and retractable pack pattern staging bar which is horizontally and laterally arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to lead and control the article group moving toward packaging unit line; and (ii) an extendible and retractable loading arm assembly which is vertically arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to follow and control the article group moving toward the packaging unit line. The apparatus of claim 9, wherein there are two input article lines constructed and arranged to package a stacked article group. |
| 19. | A packaging apparatus, comprising: (a) a packaging unit line transporting a stream of packaging units; (b) at least one input article line transporting at least one stream of articles, each input article line having a terminal end region disposed adjacent the packaging unit line, said input article line approaching the packaging unit line substantially peφendicularly; and (c) an article group selection and loading mechanism disposed at the terminal end region of the at least one input article line, the article group selection and loading mechanism forming an article group and loading the article group in a packaging unit on the packaging unit line, the article group selection and loading mechanism comprising: (1) a deadplate disposed between the input article line and the packaging unit line for supporting articles moving across from the input article line to the packaging unit line, the deadplate having a plurality of apertures disposed therein in a predetermined configuration; (2) two sets of stops extendible above the deadplate through the apertures for selectively engaging and releasing articles on the deadplate, including : (i) a plurality of infeed line stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement of articles from the at least one input article line from crossing the deadplate; and (ii) a plurality of pack pattern line stops arranged and disposed with respect to the deadplate so that they selectively impede and permit movement ofthe article group across the deadplate; and (3) an article group movement assembly disposed above the deadplate for controlling movement ofthe article group toward the packaging unit line including: (i) an extendible and retractable pack pattern staging bar which is horizontally and laterally arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to lead and control the article group moving toward packaging unit line; and (ii) an extendible and retractable loading arm assembly which is vertically arranged above the deadplate and which is longitudinally moveable with respect to the deadplate to follow and control the article group moving toward the packaging unit line. |
APPARATUS FOR PACKAGING ARTICLE GROUPS
CROSS-REFERENCE TO RELATED APPLICATIONS
Not applicable.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH AND
DEVELOPMENT
Not Applicable.
BACKGROUND OF THE INVENTION
1. Field of the Invention.
This invention relates to packaging methods and apparatus. Particularly, this
invention relates to an apparatus and method for packaging flat and stacked groups of
articles into carrying cartons. The apparatus and method are particularly well suited for
packaging relatively large groups of small articles in stacked configurations into paperboard cartons.
2. Background ofthe Invention.
Prior art packaging machines include U.S. Patent 4,802,254 to applicants'
assignee for a Vertical Cartoning Assembly and Method which discloses the assembly
of cartons for pre-selected article groups being moved on a conveyor. U.S. Patent
5,036,644, also to applicants' assignee, discloses a Packaging Sleever Assembly which transfers flat packaging sleeves directly onto pre-selected article groups and
subsequently wraps and closes the cartons. U.S. Patent 5,241,806, also to applicants'
assignee, discloses a Continuous Motion Cartoner Assembly which loads article groups
into open ended carton sleeves. Additionally, applicants' assignee manufactures Twin Stack® Packaging Machines which form stacked article groups and subsequently load the groups into open ended carton sleeves.
It is an object of this invention to provide an apparatus and method for reliably packaging products in a wide range of flat or stacked group sizes and configurations. Another object of this invention is to provide a packaging apparatus and method which
are usable with a variety of package types and sizes, article types and sizes, and group
configurations (stacked and unstacked) and sizes. Another object is to provide an apparatus which is low in cost. Another object is to provide an apparatus which is
compact. Another object is to provide an apparatus which is optimized for packaging
relatively large groups of relatively small articles.
BRIEF SUMMARY OF THE INVENTION
The apparatus ofthe present invention provides a method and apparatus for
packaging articles. The method comprises the steps of supplying a stream of packaging
units, for example paperboard cartons; supplying at least one input stream of articles,
for example beverage cans, substantially peφendicularly with respect to the stream of packaging units; forming a flat, single layer article group at a terminal end ofthe input
stream of articles, the article group having a plurality of articles in a predetermined
configuration for example a 3X4 group of 12; and substantially peφendicularly loading
the article group into a packaging unit in the stream of packaging units. Preferably, pair of input streams of articles are supplied, a second input stream of articles being activatable for loading a second flat, single layer article group into the packaging unit,
on top of the first article group disposed therein, whereby stacked article groups, for
example a group of 24, are formed in the packaging unit. In a stacking mode, a divider sheet, for example a paperboard panel, is optionally placed on top of the first article group prior to its being loaded in the packaging unit, and the second article group is slid
across the divider sheet.
The packaging apparatus basically comprises a central, longitudinally oriented,
linear carton line; a first or low article infeed line; an optional second or high article infeed line; an optional divider sheet feeder; a low group selecting and loading assembly; and an optional high group selecting and loading assembly. The carton
stream is disposed longitudinally and extends downstream to an output end. The
article infeed streams are oriented laterally and approach the same side ofthe carton
stream. The infeed lines are staggered longitudinally along the carton line, the high
infeed line being disposed downstream with respect to the low line, and further, at a higher vertical level than the low line.
In operation, carton blanks are erected into open ended cartons on the carton
line. Unmetered articles on the input lines are formed into groups and loaded into erected cartons. For stacked packaging, the low group selecting and loading assembly
forms a low article sub-group and loads it into a carton on the carton line. The high
group selecting and loading assembly forms a high article sub-group and loads it into the carton containing the low article sub-group. The high article sub-group is slid over the low article sub-group resident in the carton, preferably over a divider sheet
disposed thereon, to form a stacked article group inside the carton. In a flat or single
tier article group processing mode, only the low article input line is operational. The low group selecting and loading assembly forms the single level article group and
loads it into a carton on the carton line.
The features, benefits and objects of this invention will become clear to those skilled in the art by reference to the following description, claims and drawings.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Figure 1 is a side or elevation view of a preferred embodiment ofthe apparatus
ofthe present invention.
Figure 2 is a top or plan view of the apparatus.
Figure 3 is perspective view of portions ofthe apparatus.
Figure 4 is a side view ofthe article input section of the apparatus, taken along line 4-4 of Figure 2.
Figure 5 is a chart showing various exemplary pack patterns provided by the apparatus for a particular can diameter.
Figure 6 is a side view of a portion ofthe apparatus wherein, during operation,
a group of articles is formed from an input stream of articles.
Figure 7 is a side view ofthe portion shown in Figure 6, wherein the group is being transported forwardly.
Figure 8 is a side view ofthe portion shown in Figures 6 and 7, wherein the
initial group is being further transported and loaded in a carton, and wherein a subsequent group is being formed.
Figure 9 is a side view ofthe portion shown in Figures 6-8, wherein the initial group is further being loaded in the carton, and wherein the subsequent group is fully
formed.
Figures 10-14 illustrate detailed sections ofthe apparatus.
DETAILED DESCRIPTION
The methods and apparatus ofthe present invention are for packaging articles such as beverage cans in a compact operation. The apparatus is adjusted or changed
over to provide reliable packaging of articles or products of varying types, and sizes, in a variety of group sizes and configurations, into packages of varying types and sizes.
For example, the apparatus is usable to load beverage cans into a variety of single level
and two level or tier (stacked) pack combinations, from six to forty-eight cans, into
paperboard cartons or carriers. The apparatus and method are particularly well suited
for processing relatively large groups of relatively small products as in the case of the stacked, forty eight pack. Packaging is accomplished quickly and reliably, under typical industry tolerances for both beverage can and carton construction. Although the
embodiments disclosed load beverage can groups into paperboard cartons, its within the
purview of this invention to process articles of a variety of types and sizes and containing a variety of products such as liquids, semi-solids and solids, into a variety of packaging media.
Referring to Figures 1, 2 and 4, a preferred embodiment of the apparatus ofthe
present invention is generally indicated by the reference numeral 10. The packaging apparatus or machine 10 is described below first in terms of its major structural and
functional elements and then in terms of its specific structural elements which
cooperate to perform a packaging function.
Referring also to Figures 3 and 4, the packaging apparatus 10 basically
comprises a central, longitudinally oriented, linear carton stream or line 11, a first or
low article infeed stream or line 12, a second or high article infeed stream 13, a divider
sheet feeder 14, a low group selecting and loading assembly 15, and a high group
selecting and loading mechanism 16. These mechanisms are preferably supported by a
unitary frame structure 17. The carton line 1 1 and infeed article lines 12 and 13 are preferably synchronized conveyor based mechanisms. The carton stream 1 1 is disposed
longitudinally and extends from an upstream end 18 to a downstream, output end 19.
The article infeed streams 12 and 13 are oriented preferably peφendicularly and from
the same side ofthe carton stream 1 1. The infeed lines 12 and 13 are staggered longitudinally along the carton line 11 , the high infeed line 13 being disposed
downstream with respect to the low line 12. Additionally, the article infeed lines 12 and 13 are disposed in vertically separate planes, the high line 13 being disposed at a higher level.
In operation, carton blanks 23 are erected into open ended cartons 24.
Unmetered articles 24 on the input lines 12 and 13 are formed into groups, and the groups are loaded into erected cartons 24. In a stacked or double tier article processing mode, both the low article input line 12 and the high input line 13 are operational. The
first or low group selecting and loading assembly 15 forms a first or low article sub¬
group 26 and loads it into a carton 24 on the carton line 11. The second or high low group selecting and loading assembly 16 forms a second or high article sub-group 27 and loads it into the carton 24 containing the low article sub-group 26. The high article
sub-group 27 is slid over the low article sub-group 26 resident in the carton 24 to form
a stacked article group inside the carton 24. Preferably, the divider sheet feeder 14
deposits a divider sheet 28 onto the top ofthe formed low article sub-group 26 prior to
its being loaded into the carton 24. The divider sheet 28 provides a smooth, flat surface
which facilitates sliding movement ofthe upper group 27 over the lower group 26. In a flat or single tier article group processing mode, only the low article input line 12 is
operational. The first or low group selecting and loading assembly 15 forms the article
sub-group 26 and loads it into a carton 24 on the carton line 11. In both stacked and flat processing modes, the loaded cartons 24 are transported downstream on the carton line 1 1 further processing and output as a filled, completed carton 29.
Referring also to Figures 6-14, the carton line 1 1 preferably comprises a carton
blank magazine 30, a blank placement mechanism 31, and a carton conveyor 25. Top carton stabilizers or guides 37 may also be used. The upstream end ofthe conveyor 25 is disposed generally below the blank placer 31. The blank placer 31 , for example a
reciprocating or rotary placer, picks carton blanks 23 from the magazine 30 and places them on the conveyor 25. The conveyor 25 has a plurality of spaced lugs or flights 33
between which the erected cartons 24 are disposed. The cartons 24 are arranged so that their ends are disposed laterally or to the side with respect to the longitudinal axis ofthe
carton line 11. The cartons 24 have open flaps 27 a-d at each side. The conveyor 25 transports cartons 24 linearly, downstream past the group selecting and loading
assemblies 15 and 16, a gluing and flap closing section 28, a compression section 36
and to the output end 19 ofthe assembly 10. Sections 28 and 36 operate to glue and close the flaps 27 ofthe cartons 25 once the article group or groups are fully loaded
therein, and to hold the flaps closed for a sufficient time to allow the glue to set and
hold the flaps 27 closed.
The article supply lines 12 and 13 each transport a plurality of un-metered
articles 25. The lines 12 and 13 are oriented in a spatially parallel orientation with respect to each other, in separate vertical planes, and on the same side ofthe carton
conveyance line 1 1. The lines 12 and 13 preferably approach the carton conveyance
line 11 peφendicularly. The low line 12 is disposed at the level of a top, downstream
run of carton conveyor 32, while the high line 13 is disposed immediately above the
low line 12. Each line 12 and 13 includes a conveyor 40 a,b, and one or more lane
dividers 41 which orient the infed articles 25 into linear rows. The lane dividers 41 terminate at a predetermined point short ofthe respective selecting and loading systems 15 and 16.
The low and high group selecting and loading mechanisms 15 and 16 are disposed at the ends ofthe low and high infeed lines 12 and 13 respectively, adjacent
one side ofthe carton line 11. The low selection and loading mechanism 15 comprises
a deadplate 44, a infeed line stop assembly 45, a pack pattern line stop assembly 46, a pack pattern staging bar assembly 47, and a loading arm assembly 48.
The deadplate 44 is aligned with and extends from the terminal end ofthe conveyor 40 to the carton line conveyor 32. It is disposed at the level ofthe top run
surface of each conveyor 40 and 32. The deadplate 44 is preferably constructed of a
polymeric material such as Nylon. It has a set of aligned apertures 52 disposed a predetermined distance from the forward edge ofthe deadplate 44 which cooperate and
permit vertical movement ofthe infeed line stop assembly 45 therewith, and a set of
aligned, and laterally elongated slots 53 which cooperate with the pack pattern line stop assembly 46. The length ofthe slots 53 permits adjustment ofthe pack pattern line stop
assembly 46 to form various article group 26 sizes. The deadplate 44 is bounded on its lateral sides by guide rails 54 which maintain the pack pattern ofthe group 26 moving
thereover.
The infeed line stop assembly 45 comprises a plurality of driven stop pins 55 which are vertically oriented and arranged in a line laterally across the deadplate 44, aligned with the first set of apertures 52 therein. The pins 55 have a predetermined
diameter and cylindrical configuration, and are further oriented with respect to the
infeed line 12 so that each pair of adjacent pins 55 will impede the forward progress of
a row of articles 45 exiting the infeed line 12 when fully vertically upwardly extended. The pins 55 are connected to an actuation mechanism 56 which extends and
downwardly retracts them at a predetermined time. The infeed line stop assembly 45
separates the trailing cans a group 26 from the leading cans ofthe infeed line.
The pack pattern line stop assembly 46 comprises a plurality of driven stop pins 57 which are vertically oriented and arranged in a line laterally across the deadplate 44, aligned with the set of slots 53 therein. The pins 57 have a predetermined diameter and
cylindrical configuration, and are further oriented with respect to the infeed line 12 so
that each pair of adjacent pins 57 will impede the forward progress of a row of articles 45 comprising an article group 26 when fully vertically upwardly extended. The pins
57 are connected to an actuation mechanism 58 which extends and downwardly retracts
them at a predetermined time. The pack pattern line stop assembly actuation
mechanism 58 is synchronized with the infeed line stop assembly actuation mechanism 56. The position ofthe pins 57 extending though the slots 83 in the deadplate 75
control the depth, from three to six cans, ofthe pack pattern 26.
The pack pattern staging or retaining bar assembly 47 comprises an elongated bar 59 of predetermined dimensions and a cam driven actuation mechanism (not shown). The bar 59 is oriented laterally with respect to the deadplate 44. Referring to
Figures 3 and 6-9, the actuation mechanism extends and retracts the bar 59 laterally
over the deadplate 44 and further moves the bar 59 longitudinally forward and backwards over the deadplate 44 to control the movement of a formed article group 26.
As is best shown in Figure 3, movement ofthe bar 59 is limited to a predetermined
horizontal plane. The pack pattern staging bar assembly actuation mechanism is
synchronized with the actuation mechanisms 56 and 58 of the infeed line stop pin and pack pattern line stop assemblies 45 and 46.
The horizontal/vertical loading arm assembly 48 comprises an arm assembly 60
of predetermined dimensions and a cam driven actuation mechanism 61. The arm assembly 60 is oriented substantially vertically with respect to and over the deadplate
44. Referring to Figures 3 and 6-9, the actuation mechanism 61 downwardly extends
and upwardly retracts the arm assembly 60 with respect the horizontally top surface of
the deadplate 44 and further moves the arm assembly 60 longitudinally forward and backwards over the deadplate 44 to control the movement ofa formed article group 26.
As is best shown in Figure 3, movement ofthe arm assembly 60 takes place within a predetermined vertical planar region. The actuation mechanism 61 is synchronized
with the actuation mechanisms ofthe pack pattern staging bar, infeed line stop, and pack pattern line stop assemblies 47, 45 and 46 respectively. The arm assembly 60
comprises a plurality of elongated bar members 62 attached to the actuation mechanism 61. Bar members 62 have a predetermined bent configuration with a vertical terminal
segment 63 which is aligned with a row of articles 25 in a group 26, and contacts the trailing member 64 of such row. The lateral orientation ofthe bar 62 members and the
number of bar members 62 is adjustable to accommodate various article sizes and group sizes and configurations. A divider sheet stabilizer 65 is preferably connected to
the arm assembly. The stabilizer 65 is preferably a flexible tubular, looped structure which gently holds the divider 28 down and in place upon contact.
Referring particularly to Figures 3 and 6-9, in operation, the various elements
ofthe low group selection and loading assembly function as follows. Figure 6 shows
an initial stage wherein the infeed line stop pins 55 and pack pattern line stop pins 57
are extended. The loading arm 60 is disposed above the infeed line stop pins 55 and is
downwardly extended. In this position, the surge of articles 25 on the infeed conveyor
40a is held back by the infeed line stop pins 55. A pre-processed group 26a is shown in
Figures 6-9. Subsequently, referring to Figure 7, the pack pattern line stop pins 57 are
retracted, the loading arm 60 is advanced forward a predetermined distance (Figure 3,
Flow 1) and the pack pattern staging bar 59 is horizontally extended (Flow 2) into a gap created by the loading arm 60 moving forward. Where group 26a is present, the
loading arm 60 urges the group 26a forward. Next, referring to Figure 8, the line stop
pins 55 retract, the loading arm 60 again advances (Flow 3), and the pack pattern
staging bar 59 advances forward (Flow 4.). The pack pattern stop pins 57 then extend upwardly. Next, referring to Figure 9, as the leading articles 66 contact the pack
pattern stop pins 57, the loader arm 60 is upwardly retracted (Flow 5), the pack pattern
staging bar 59 is horizontally retracted (Flow 6) and the line stop pins 55 extend between trailing articles 67 ofthe now formed group 26b and the terminal or leading articles 68 on the conveyor 40a. The loader arm 60 is rearwardly retracted (Flow 8) and
the pack pattern staging bar 59 is retracted (Flow 9) as shown in Figure 6 for further
cyclical processing. During loading, a reciprocating hold back mechanism 69, shown in
Figures 2 and 9, advances toward the group 26a through the open back side ofthe carton 24, and is preferably used to set a back limit on movement of the group 26a. The
stop has a stepped face 70 which allows the leading edge ofthe divider pad 23 to
extend over the leading edge of the article group 26a. The divider sheet 23 is subsequently pushed back by a related mechanism 95 aligned with the high group
loading station 16 so that its opposite or trailing edge extends over the trailing edge of
the article group 27a. The extended end is grasped by a pneumatic clamp edge on the
ramp 80 to provide smooth transfer surface for the high article group 27 during loading. The extended trailing edge ofthe divider sheet 23 is subsequently folded down by downstream plow apparatus.
The divider sheet feeder 14 is disposed adjacent the low selecting and loading
mechanism 15. The divider sheet feeder 14 preferably is a friction sheet feeder ofthe type manufactured by Stream Feeder, for example. Sheets 28 are disposed in a
magazine portion ofthe feeder 14 and each sheet 28 is output from the feeder 14 horizontally and from the side onto a retractable holder mechanism 70. The holder
mechanism 70, which preferably comprises a plurality of extendible and retractable rods or prongs 72, is subsequently retracted resulting in an individual sheet 28 being dropped onto the top surface ofthe low article group 15. Sheet feeding and dropping
occurs after a group 26 is formed by the low group selection and loading assembly 15
as shown in Figures 9 and 6, respectively. The high selection and loading mechanism 16 is structurally and functionally
similar to the low selection and loading mechanism 15. It comprises a deadplate 75, an
infeed line stop assembly 76, a pack pattern line stop assembly 77, a pack pattern staging bar assembly 78, a loading arm assembly 79, and an articulating loading ramp 80.
The deadplate 75 is aligned with and extends from the terminal end ofthe
conveyor 40 b to a point short ofthe carton line conveyor 32, where the loading ramp 80 is disposed. It is disposed at the level ofthe top run surface of conveyor 40b and
above the level of conveyor 32. The loading ramp 80 provides a deadplate surface
which the high group 27 is pushed across by the loader arm. The ramp is constructed
and arranged to pivot up and away from the carton line 1 1 , for example by an air
cylinder 81 , to permit cartons 24 to be advanced forward on the carton line 11 , and to
pivot down and provide a horizontal sliding surface for the high group 27 when the
carton 24 is stopped and aligned. The deadplate 75 also has two sets 82 and 83 of
aligned apertures which cooperate with and permit vertical movement ofthe infeed line
stop assembly 76 and pack pattern line stop assembly 77, respectively, therewith. The
deadplate 75 is bounded on its lateral sides by guide rails 84 which maintain the pack pattern ofthe group 27 moving thereover. The infeed line stop assembly 76 comprises a plurality of stop pins 85 which impede the forward progress of a row of articles 76
exiting the infeed line 12 when fully vertically upwardly extended. The pins 85 are
connected to an actuation mechanism 86 which extends and downwardly retracts them at a predetermined time. The pack pattern line stop assembly 77 comprises a plurality
of stop pins 87 which impede the forward progress of a row of articles 76 comprising
an article group 26 when fully vertically upwardly extended. The pins 87 are connected to an actuation mechanism 88 which extends and downwardly retracts them at a
predetermined time. The pack pattern line stop assembly actuation mechanism 88 is synchronized with the infeed line stop assembly actuation mechanism 86. The pack
pattern staging bar assembly 78 comprises an elongated bar 89 of predetermined
dimensions and an actuation mechanism 90. The bar 89 is oriented laterally with respect to the deadplate 75. The pack pattern staging bar assembly actuation
mechanism 90 is synchronized with the actuation mechanisms 86 and 88 of the infeed
line stop pin and pack pattern line stop assemblies 76 and 77, respectively. The loading arm assembly 79 comprises an arm assembly 91 of predetermined dimensions and an
actuation mechanism 92. The arm assembly 91 is oriented substantially vertically with
respect to and over the deadplate 75. The actuation mechanism 92 is synchronized with the actuation mechanisms 90, 86 and 88 ofthe pack pattern staging bar, infeed line
stop, and pack pattern line stop assemblies 78, 76 and 77 respectively.
The actuation mechanisms ofthe high group selection and loading mechanism 16 function to cyclically form and load high groups 27 into the cartons, preferably across the divider sheets 28, in the cartons 24. In addition to being synchronized with
each other, they are synchronized with related structures ofthe low group selection and
loading mechanism 15.
In summary, each loading mechanism 15 and 16 moves laterally across its respective infeed line 12 and 13, preferably at a right angle, at predetermined intervals
to contact an article group 26 or 27 and move it from the line 12 or 13 into an aligned
carton 17 disposed on the carton line 11. In a stacking article group processing mode,
the low article group 26 is formed, a divider panel 28 from the divider sheet feeder 14 is optionally deposited on the top ofthe formed low article group 26, the group 26 is
inserted into a carton 24, that carton 24 is transported downstream by the carton line 11 into alignment with the high loading mechanism 16 where the high group 27 is
laterally and slidingly moved across the divider sheet 28 to form the stacked article group inside the carton 24. The filled cartons 24 are subsequently conveyed further
downstream for ancillary processes. In a flat or single tier article processing mode, the high infeed line 13 and selection and loading system 16 are disabled. Only article groups 15 are inserted into flat cartons of any one of several well known designs (not
shown), which are then transported downstream on the conveyor line 1 1 for gluing,
flap tucking, compression and output.
Figure 5 shows various pack patterns that may be formed by the apparatus 10
for beverage cans with a diameter in the range between 2.09 and 2.60 inches (53 and 66 mm.) and height between 3.0 and 7.0 inches (76.2 and 177.8 mm.). The pack patterns
include two tier, stacked groups, as well as single tier of flat groups. Additional pack
patterns may be achieved utilizing the apparatus and method of this invention
depending upon the diameters ofthe articles. The apparatus 10 is fully adjustable to accommodate various article sizes, group configurations, and carton sizes and configurations.
The descriptions above and the accompanying drawings should be inteφreted in the illustrative and not the limited sense. While the invention has been disclosed in
connection with the preferred embodiment or embodiments thereof, it should be understood that there may be other embodiments which fall within the scope ofthe invention as defined by the following claims. Where a claim is expressed as a means or step for performing a specified function it is intended that such claim be construed
to cover the corresponding structure, material, or acts described in the specification
and equivalents thereof, including both structural equivalents and equivalent
structures.
Next Patent: MACHINE FOR FILLING AND SEALING PLASTIC BAGS