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Claims  |
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We claim:
1. Apparatus for forming a clamshell type carton from a free paperboard
blank or the like along a substantially horizontal path, the carton having
two sections, each section including at least a base panel, wall panels
attached to the base panel, and corner tabs formed at the corners of the
wall panels, the two sections separated by an articulated central hinge,
and hinge tabs formed adjacent the hinge, comprising:
(a) a carton forming die for receiving said free paperboard blanks and for
erecting and retaining selected panels of said carton by the adjacent
tabs;
(b) means for conveying the paperboard blank along a substantially
rectilinear guide path into contacting registration with the die;
(c) upstanding means for prebreaking and erecting said articulated hinge
along said guide path during movement of said blank before said carton
blank reaches the die, said prebreaking and erecting means being
positioned upstream from the die adjacent said conveying means; and
(d) a hinge gathering guide along said guide path including hold down rails
and downwardly facing hinge gathering groove means positioned to overlie
and contact the central hinge of said free paperboard blank and urge the
panels adjacent the central hinge fold line down against said upstanding
means to thereby enable erection of the hinge without lifting the carton
from the conveyor guide path; and
(e) a reciprocating forming head for forcing the erected hinged carton
blank into said die immediately upon proper registration of the blank on
said die so as to rapidly fold and erect said wall panels of said carton.
2. Apparatus according to claim 1, wherein said conveying means includes a
shuttling means sequentially conveying the paperboard blanks with the
hinge in longitudinal alignment on the conveyor.
3. Apparatus according to claim 2, wherein said hinge erecting means
includes a hinge erecting conveyor having upstanding fins operatively
positioned in the conveyor guide path to progressively engage a central
fold line of the hinge, thereby erecting the hinge.
4. Apparatus according to claim 3, further including side channel guides
operatively positioned along the sides of the conveyor guide path, said
guides engaging longitudinally extending wall panels of the carton to
maintain the hinge fold line in longitudinal alignment with the erecting
means.
5. Apparatus according to claim 4, further including a hinge gathering
guide including hold down rails positioned to urge the panels adjacent the
hinge fold lines down to thereby enable erection of the hinge without
lifting the carton from the conveyor guide path.
6. Apparatus according to claim 5, further including converging side
channel guide extensions, said converging extensions being operable to
provide continued supporting engagement to the wall panels as the width of
the carton is reduced during hinge erection.
7. Apparatus according to claim 4, wherein a pair of channel guide
extensions are provided on the upper surface of the die in longitudinal
alignment with the conveyor side channel guides, at least one of the
channel guide extensions including a converging portion operable to assist
in forming said hinge.
8. Apparatus according to claim 2, wherein said shuttling means includes a
drive assembly and a carriage supporting a pair of pusher fingers in the
guide path, said pusher fingers each having a shoulder engageable with a
trailing edge of the carton, said drive assembly being timed to drive the
carriage arrangement and fingers in reciprocating movement to transfer the
carton into the die.
9. Apparatus according to claim 1, wherein a folding assist blade is
provided between said erecting means and said die to receive and guide the
erected carton hinge in supporting and guiding engagement to thereby
maintain the hinge in a centered position and to properly direct the
carton into the die.
10. Apparatus according to claim 9, wherein said assist blade is
substantially pyramid shaped and includes a cross section corresponding to
the cross-sectional shape of the hinge, said blade being further
positioned to engage the undersides of the hinge tabs during the forming
operation to support the carton in contacting registration over the die
and to fold upstream hinge tabs into the carton interior during the first
part of the forming stroke.
11. Apparatus according to claim 10, further including a registration post
operatively positioned to support the opposite end of the carton hinge
when the carton is in final position over the die, said post having ear
projections engaging the undersides of the hinge tabs to thereby fold the
same into the carton interior during the first part of the forming stroke.
12. Apparatus according to claim 11, wherein a pair of channel guide
extensions are provided including horizontally extending erecting
projections beneath the carton corner tabs in contacting registration
therewith when the carton is in position over the die, said erecting
projections thereby folding the corner tabs into the carton interior
during the first part of the forming stroke.
13. Apparatus for forming a clam-shell type carton from a free paperboard
blank or the like along a substantially horizontal path, the carton having
two sections, each section including at least a base panel, wall panels
attached to the base panel, and corner tabs formed at the corners of the
wall panels, the two sections separated by an articulated hinge, and hinge
tabs formed adjacent the hinge, comprising:
(a) a carton forming die for receiving said free paperboard blanks and for
erecting and retaining selected panels of said carton by the adjacent
tabs;
(b) means for conveying the paperboard blank along a substantially
rectilinear guide path into contacting registration with the die;
(c) upstanding means for prebreaking and erecting said articulated hinge
along said guide path during movement of said block before said carton
blank reaches the die, said prebreaking and erecting means being
positioned upstream from the die adjacent said conveying means;
(d) a hinge gathering guide positioned in longitudinal alignment above the
erecting means, said gathering guide having a downwardly facing hinge
gathering groove cooperating with said upstanding erecting means to urge
the panels adjacent the articulated hinge down against said upstanding
means and to receive the erected hinge during folding, thereby maintaining
the hinge in longitudinal alignment with the erecting means for subsequent
contacting registration of the carton with the die; and
(e) a reciprocating forming head for forcing the erected hinged carton
blank into said die immediately upon proper registration of the blank on
said die so as to rapidly fold and erect said wall panels of said carton.
14. A method for forming a clam-shell type carton from a free paperboard
blank or the like, the carton having two sections, each section including
at least a base panel, wall panels attached to the base panel, and corner
tabs formed at the corners of the wall panels, the two sections separated
by an articulated hinge, and hinge tabs formed adjacent the hinge,
comprising the steps of:
(a) conveying the free paperboard blank along a substantially rectilinear
guide path in the direction of a forming die;
(b) erecting the carton hinge as the free blank is conveyed past upstanding
erecting means toward the forming die;
(c) holding the carton down along the conveyor guide path during conveying
and erecting by means of hold down rails and downwardly facing hinge
gathering groove means overlying and contacting the carton hinge and
urging the panels adjacent the articulated hinge down against said
upstanding means thereby maintaining the hinge in longitudinal alignment
with the erecting means for subsequent contacting registration of the
carton with the forming die;
(d) transferring the partially erected carton from the conveyor into
contacting registration with the forming die;
(e) supporting the partially erected carton in final position over the
forming die in the forming head as a cantilevered structure; and
(f) forming the blank into a completely erected carton.
15. A method according to claim 14, comprising the further step of
accurately positioning the carton hinge in longitudinal alignment for
forming while the carton is conveyed to the folding means.
16. A method according to claim 14, comprising the further step of forming
the carton by plunging the partially erected carton through a forming die
with the panels of the carton converging toward each other.
17. A method according to claim 14, comprising the further step of holding
the panels adjacent a central hinge fold line in a downward direction
while the carton hinge is progressively raised, thereby preventing the
carton from lifting out of the guide path during hinge formation. |
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Claims |
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Description |
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TECHNICAL FIELD
This invention relates generally to carton forming and more particularly to
an apparatus and method for high speed forming a clamshell type carton
from a coated paperboard blank.
BACKGROUND OF THE INVENTION
Clamshell type cartons generally have two sections, each section including
a base panel, wall panels attached to the base panel, and connecting tabs
formed at the corners of the wall panels; the two sections being separated
by an articulated hinge. Such cartons are useful, for example, as
containers for fast food items such as hamburgers and the like. The
paperboard from which the carton is formed is normally printed with
attractive graphics and coated (with a polyethylene coating or the like)
to protect the product and to prevent absorption of liquid or food juices
by the paperboard.
Cartons of the clamshell type present one particularly difficult forming
problem not present when simple trays are being formed. That is, some
means must be provided to fold and gather the articulated hinge of the
carton blank in a rapid manner while not interfering with folding and
gluing steps. The carton blank must be conveyed into proper contacting
registration with the forming die and must be properly supported in the
forming head path to accept the onset of the forming head.
While this approach has proven to be successful, one disadvantage of this
prior art type apparatus is that it has an upper speed limitation due to
the relatively complex folding and gluing operations which must be
performed in the forming die to provide the completed hinged, clamshell
type carton. For example, the carrier frame utilized to feed the
paperboard blank onto the die must pivot through 90.degree. of movement
into the forming head and must then pivot out of the die. Next, the hinge
prebreaking blades must also pivot into and out of the die. The aforesaid
feeding and blade movement must take place before the forming head begins
its descending stroke. This built-in delay thus interferes with the high
speed operation of the forming head, thereby increasing production time.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide an apparatus and
method for more rapidly forming a clamshell type carton.
It is another object of the invention to provide apparatus and method for
rapidly forming a clamshell type carton with conveying means for conveying
a carton blank to a carton forming die in a rapid manner and for
accurately preforming the hinge and locating the blank in contacting
registration with the die.
Another object of the invention is to provide an apparatus and method for
preforming the carton hinge by raising action of an endless conveyor
during high speed conveyance to the forming die.
Still a further object is to support the hinge-formed and partially erected
carton in contacting registration with the die and with tab prebreaking
means located outside the forming head path.
Additional objects, advantages and novel features of the invention will be
set forth in detail in part in the description which follows and in part
will become apparent to those skilled in the art upon examination of the
drawing, or may be learned by practice of the invention. The objects and
advantages of the invention may be realized and obtained by means of the
instrumentalities and combinations particularly pointed out in the
appended claims.
The carton forming apparatus of the invention and the method for forming a
hinged clamshell carton include a carton forming die for receiving the
paperboard blank. The paperboard blank has two sections, each section
including at least a base panel, wall panels attached to the base panel,
and corner tabs formed at the corners of the wall panels, with the two
sections separated by an articulated hinge, and hinge tabs formed adjacent
the hinge. The die includes tab prebreaking and erecting surfaces located
outside the forming head path to fold the tabs into position during the
first part of the forming stroke. A folding assist blade and a rear
registration post accurately locate the carton hinge over the die via
engagement with the hinge tabs while also folding the hinge tabs into the
required position.
A reciprocating shuttle conveyor transfers the paperboard blank into
contacting registration with the die. The folding assist blade is
positioned in the conveyor guide path. An endless conveyor upstream of the
folding blade erects the hinge fold line while the carton is conveyed
toward the die in a high speed, uninterrupted manner. The reciprocating
forming head or plunger then forces the erected hinge carton blank into
the die to fold and erect the wall panels of the carton.
The endless erecting conveyor includes a chain with raised fins gradually
engaging and lifting the hinge fold to perform the pre-erecting function.
The chain is timed so the lifting fins move at substantially the same
speed as the carton, thereby eliminating any friction that could cause
center lag of the carton.
The folding assist blade includes a pyramid-shaped cross-section with the
leading edge being gradually elevated. A pair of hinge hold-down or
positioning rails each having a pressing edge are positioned above the
guide path to urge the hinge fold lines against the fins and the folding
blade. This pressing engagement enables the cooperating folding fins and
blade to raise the hinge without lifting the carton from the conveyor.
Side channel guides operatively positioned along the sides of the conveyor
engage longitudinally extending wall panels of the carton to maintain the
hinge fold line in alignment with the folding fins and blade. The side
channel guides include converging guide channel extensions to provide
continued supporting engagement to the wall panels as the width of the
carton is reduced during hinge erection.
A final hinge gathering guide is positioned in alignment between the
hold-down rails and includes a downwardly facing hinge gathering groove
receiving the erected hinge. The guide maintains the hinge in longitudinal
alignment for subsequent contacting registration of the carton with the
die. The gathering guide also prevents the partially erected carton from
flexing upwardly due to the combined effect of the erecting conveyor and
the folding blade controlling the hinge formation. Once the carton is in
position overlying the die, it is held down by the side channel guides.
The shuttle or transfer conveyor includes a carriage arrangement driven by
a drive assembly to transfer the partially erected blanks to the die. The
carriage includes a pair of pusher fingers engaging the trailing edges of
the two sections of the carton. The fingers include shoulders and
forwardly directed extensions to assist in the hold-down function and
prevent upward bowing of the carton. The drive assembly is timed to
shuttle the pusher fingers into position and take over moving the carton
in a forward stroke to accomplish the transfer. As the carton is shuttled
into a precise final position over the die under the guiding action of the
side channel guide, the plunger may rapidly engage and cause the blank to
enter the die to form the complete carton.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 is a top view of the carton forming apparatus showing the paperboard
blank (full line outline) being conveyed toward the forming die on the
conveyor, and in final position over the forming head path (dashed line);
FIG. 2 is a side elevational view (partially in cross section) showing the
operative location of the feed conveyor relative to the forming die and
the shuttle conveyor used to convey the partially erected carton blank
into contacting registration with the die;
FIG. 3A is a partial, side elevational view similar to FIG. 2 but with the
partially erected carton entering the forming head path under the guiding
influence of the folding blade and the gathering guide while being under
the influence of the shuttling action of the pusher fingers; FIG. 3B
showing the same view but having parts removed to illustrate the
underlying hinge erecting conveyor;
FIGS. 4A and 4B are similar to FIGS. 3A and 3B showing the partially
erected carton in final position over the forming head cavity awaiting the
onset of the forming head;
FIGS. 5A and 5B are similar to FIGS. 4A and 4B, but showing the forming
head now engaging the paperboard blank to fully erect the carton;
FIGS. 6-9 are partial top views also sequentially illustrating hinge
erection on the conveyor, convergence of the carton panels under the
guiding action of the side channel guides, and shuttling movement of the
partially erected carton into final position over the forming head cavity;
FIG. 10 is a view taken through the line 10--10 of FIG. 1 showing the
partially erected carton in final position over the forming die in
supporting engagement with side channel guides and the gathering guide
located outside the path of the forming head;
FIG. 11 is an enlarged detailed view of one fin element of the hinge
erecting conveyor lifting the hinge upstream of the hinge gathering guide;
and
FIG. 12 is a perspective view of a fully erected clamshell type carton
formed using the apparatus and method of the present invention.
DETAILED DESCRIPTION
Referring to FIG. 1, a preferred form of carton blank 10 for use with the
apparatus of the invention includes a left hand base panel 12 and a right
hand base panel 14 connected by a "living" or articulated hinge 16 (FIG.
12). Hinge 16 is formed by a scored fold line between a left hand hinge
panel 16a and a right hand hinge panel 16b. Panels 16a and 16b are
respectively attached to base panels 12 and 14 with scored fold lines
therebetween, and also serve as inner side walls to the two halves of the
finished carton (see FIG. 12). Hinge panels 16a and 16b each include a
pair of hinged tabs 18, 19 formed on opposite ends thereof. A pair of end
panels 20 and 20' are each respectively attached to base panels 12 and 14.
Outer side wall panels 22a and 22b are respectively attached to the
remaining side of base panels 12 and 14. Each side wall panel 22a and 22b
respectively includes a pair of corner tabs 24, 25 formed between the side
panel and adjacent end panel 20 and 20'. A locking tab, including a
locking slit 26', is formed on the outer portion of right side panel 22b.
Left side panel 22a includes a locking tongue 26 adapted to fit into
locking slit 26' when the blank 10 is erected. Corner tabs 24 are sealed
to their adjacent end panels by suitable adhesive. The dashed lines in
FIG. 1 indicate prescored fold lines of the carton.
While the carton 10 is shown as an elongated carton extending in the
direction of the hinge, it is clear that the principles of the present
invention apply to the other clamshell carton shapes, such as square or
elongated perpendicular to the hinge line.
It will be appreciated that a number of folding and gluing operations must
be performed in order to form the paperboard blank of FIG. 1 into the
completed, clamshell type carton shown in FIG. 12. In accordance with the
invention, the fold lines between hinge panels 16a and 16b are first
properly prebroken and then folded. Adhesive is then applied to areas of
wall panels 20 and 20' adjacent hinge tabs 18 and corner tabs 24, and then
the side and end walls of the carton must be folded and erected into the
position shown in FIG. 12.
To carry out the aforesaid operations in a high speed and efficient manner,
the carton forming apparatus of the invention, generally designated with
reference numeral 30, utilizes a high input feed conveyor C to
sequentially convey the cartons to a die assembly D where carton erection
is completed. Input feed conveyor C, as best shown in FIGS. 1 and 2,
includes a double chain drive comprising a pair of endless chains 32
trained around sprockets for constant velocity movement in the direction
of die assembly D. A pair of stationary bottom rails 34 is provided on the
sides of each chain 32. The bottom rails 34 project above endless chains
32 to define an even, continuous guide path for supporting carton blanks
10 travelling toward the die assembly. The upper edges of rails 34 are
smooth and capable of engaging and supporting the carton base panels 12
and 14 in smooth, sliding relationship.
Each carton blank 10 is fed by conveyor C in uniform spaced relation from
each other by pairs of lugs 36. Each pair of lugs 36 is attached to one of
chains 32 in offset location from the other pair to accomodate the
different lengths of the base panels 12, 14 (see FIG. 1), thus maintaining
parallel alignment between the conveyor and the carton blank.
As shown in FIG. 1, a pair of lateral channel guides 40 extends
longitudinally along the sides of the conveyor guide path so as to contact
outer side panels 22a and 22b. Channel guides 40 are parallel and
laterally spaced apart from each other to properly locate the central fold
line of carton blank 10 in longitudinal alignment with a hinge erecting
conveyor 42, (see e.g. FIG. 1), as discussed more fully below. In
addition, guides 40 and extensions thereof advantageously serve to support
and maintain the blank substantially flat for subsequent hinge
articulation or "tenting" of the hinge, and subsequent registration with
the die assembly, as hereinafter described.
In accordance with the invention, hinge erecting or folding conveyor 42 is
provided within the conveyor guide path to form articulated hinge 16. As
best shown in FIGS. 1 and 3B-5B, conveyor 42 is centrally located between
chains 32 and includes a plurality of fins 43 defining a smooth folding
edge 44 that tapers upwardly along the guide path towards die assembly D
so as to provide gradual bending engagement with the central fold line of
blank 10. More specifically, composite folding edge 44 extends upwardly at
a shallow angle to an elevational position above the guide path
approximately equal to the height of hinge 16. The erecting conveyor 42 is
driven at substantially the same speed as the feed conveyor C to assure a
smooth, forward hinge bending and feeding action. The positive nature of
the hinge forming action can be viewed in FIGS. 3B-5B (note the
progressive erecting or folding of cartons 10). In FIG. 11, the manner in
which the individual fins 43 engages the hinge 16 to lift and form the
"tent" cross section is shown.
As shown in FIGS. 2 and 3A-5A, a pair of hinged pusher fingers 45 and 45'
are provided to form a shuttle conveyor S to move the blank from
engagement with the feed conveyor C and onto the face of the forming die.
Each finger 45 and 45' is pivotally mounted to an overhead carriage 50, to
be described hereinafter, in corresponding and laterally spaced position.
A forwardly facing tapered shoulder 47 is provided on each finger to
engage the trailing edge of the carton and feed it forwardly. The shoulder
47 projects slightly below the plane of carton travel under the
compression force of a spring 49. The lower edge projects into the blank
feed path. When the shuttle conveyor S starts its return to the home
position (FIG. 5A) toward the oncoming blank 10 (FIGS. 2 and 5A), the
fingers 45 are lifted to exert gentle yet positive pressing contact on
hinge panels 12 and 14 adjacent the central fold lines. This important
feature of the invention helps assure smooth continuation of the positive
hinge formation while transferring the carton blank from the feed conveyor
C to the die D.
As best shown in FIGS. 1 and 3, carriage 50 comprises a transverse support
bar 70 carrying the spring loaded fingers 45, 45' with brackets. Support
bar 70 extends above the conveyor path and includes roller guides 72
rotatably mounted on opposite ends thereof. Guides 72 engage side rails 74
extending longitudinally on either side of conveyor C.
A drive assembly 75 imparts the necessary shuttling movement to fingers 45
and 45' via the carriage 50. As shown in FIG. 2, drive assembly 75
includes a drive wheel 77 and lever 78 and rods 79, 80 suitably sized and
operatively connected to impart the desired degree of reciprocating
movement.
To prevent the "tented" carton blank from flexing upwardly due to the
natural resistance to bending of the paperboard, or as is known in the art
as "memory" of the blank, a hinge gathering guide 52 is statically mounted
directly above hinge erecting conveyor 42 by transverse support bars 53
and includes a downwardly facing inverted V-shaped channel and outer hold
down rails 52'. The hinge gathering guide advantageously captures and
maintains the elevational, as well as the lateral alignment of hinge 16
forming on the hinge conveyor 42 (FIG. 10).
Converging guide extensions 40' are provided adjacent the entrance to the
forming die D, as best shown in FIGS. 1 and 6-9. As hinge 16 is raised to
its full height on the fins 43 of the conveyor 42, it will be appreciated
that the transverse width of carton 10 is thereby reduced (see arrows A
and A' in FIGS. 7 and 8). The guide extensions 40' advantageously serve to
provide continued smooth supporting engagement to the convering outer
panels 22a and 22b as the hinge 16 is erected. Positive inward camming
action by the extensions 40' on the blank 10 is also present. The
partially formed blank 10 is then held inwardly at the proper width
dimension in the direction of arrows A, A' (FIG. 8) in readiness for the
forming action. As with the side channel guides 40, the blank 10 is also
held against flexing and popping out of position by the upper and lower
rails forming the channel. A stop portion 41' on one of the rails 40' is
also provided (see FIGS. 1 and 9) to assist in accurately stopping the
blank in the longitudinal direction.
The conveyor system C in combination with the erecting conveyor 42 and
channel guide arrangement 40, 40' hereinabove described constitutes an
important feature of the invention. The hinge folding and gathering is
accurately and controllably performed while the carton blank 10 is being
conveyed to the die. In this manner, reliable and high speed carton
transfer and hinge erection can occur during the straight line blank
conveyance to the die. This unique arrangement eliminates the prior use of
slower, multi-directional carton feed movement provided by the carton
blank carrier frame described in the aforementioned prior art. Our
invention further avoids the need for successive hinge folding operations
with pivotal folding blades that require retraction out of the forming
head path.
Carton forming apparatus 30 of the invention also includes additional
unique means for assisting in the transferring of the hinged carton blanks
10 from conveyor C into proper registration with die assembly D where the
carton is fully erected. As shown in FIGS. 1 and 3-5, a forward folding
assist blade 60 is provided slightly downstream from erecting conveyor 42.
Assist blade 60 is substantially pyramid shaped and includes a pair of
triangular guide faces 60a, 60b (see FIG. 6). The guide faces 60a and 60b
converge upwardly away from the die D from a triangular base. The apex
defines a hinge supporting point as shown in FIG. 10. Faces 60a, 60b
enable the forward tabs 18 to bend toward the respective panels 20, 20' to
assure proper inward folding during the first portion of the downward
movement of forming plunger P (note FIGS. 4A and 5A). The vertical cross
sectional shape of folding assist blade 60 (see FIG. 10) is triangular and
corresponds to the sectional shape of hinge 16. Blade 60 is located to
gradually engage the underside of the entire hinge 16 entering the die D.
In this manner, blade 60 serves to accurately assist the center forming of
hinge 16 as carton 10 enters the forming die and comes to a stop.
The partially erected carton 10 enters over the forming die assembly D
under the guiding action of blade 60 and the converging channel extensions
40'. As carton blank 10 is shuttled into final position over the die, the
locking tongue 26 contacts the stop portion 41' provided in the
corresponding channel extension 40' and stops in registry in readiness for
the downward movement of the plunger P (see FIGS. 8 and 9).
As shown in the drawings, rear registration post 85 is attached to die
assembly D and is located outside the forming head path to contact the
undersides of hinge tabs 19. Ears 87 are provided on post 85 in physical
contact with the hinge tabs and serve to lift the tabs 19 clear of the end
wall panels 20 and 20' during the descending forming stroke. In this way,
ears 87 assure that hinge tabs 19 are folded to lie within the interior of
carton blank 10 in adhesive fastening engagement with the carton end
walls. Similarly, guide faces 60a, 60b physically contact the hinge tabs
18 to assure that the tabs are also folded into the carton interior. The
adhesive bonding between the tabs 18, 19; 24, 25 and the corresponding
panels may be in any suitable known manner, such as adhesive dots applied
in the sealing area, or heat activated adhesive areas.
In FIGS. 4A, 9 and 10, the partially erected carton blank 10 is shown
aligned in registration with the upper surface of die assembly D receiving
the descending plunger or head P driven by reciprocating means R. As shown
in FIGS. 1 and 9, it can be seen that corner tabs 24, 25 of the carton 10
overlie horizontally, extending projections 90 of guide extensions 40'.
Projections 90, located outside the forming head path, serve as corner
posts to lift the tabs 24, 25 so that they are folded into the carton
interior.
In operation, forming head P is actuated to move downwardly into contact
with the upper surface of carton blank 10 disposed over die D, as shown in
FIG. 5A. The downward motion of forming head P forces the carton blank 10
into the mouth of the die D with corner tabs 24, 25 being initially folded
and erected through contact with projections 90. Similarly, the forward
and rear hinge tabs 18, 19 are erected through contact respectively with
folding blade 60 and with ears 87 on the post 85. As carton blank 10 is
further urged into die D, side and end panels 20, 20' and 22a, 22b are
erected. When carton 10 is fully erected, corner tabs 24, 25 and hinge
tabs 18, 19 are disposed adjacent and in contact with previously
applied/activated adhesive.
When forming head P reaches its lowest point of travel with respect to die
D, the erected carton is ejected and can enter a stacking cage (not shown)
that receives and retains the erected cartons in a nested fashion.
It can thus be seen that the present invention has many advantages over
other types of apparatus for forming a clamshell type carton. Hinge
folding is performed rapidly and accurately in the movement conveying the
carton blank 10 to the die D in a high speed and uninterrupted manner. The
pusher fingers 45 and 45' serve as a shuttle conveyor to move the blanks
into position at the die D. Cooperation between the folding assist blade
60, the side channel guides 40 and 40', the projections 90 and the
registration post 85 accurately locate and position the carton blank 10
over the forming die in cantilevered fashion so as not to require support
means positioned in the forming head path that must be removed prior to
forming head movement. The carton folding apparatus is thus designed for
maximum speed and versatility for forming a clamshell type carton.
While the carton forming apparatus of the present invention has been
described in considerable detail, it is understood that various changes
and modifications may occur to persons of ordinary skill in the art
without departing from the spirit and scope of the appended claims.
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