The present invention relates to a tray made of cardboard sheet material formed of three separate parts.
It also relates to a set of blanks to form such a tray, a device for forming such a tray and a corresponding method.
It finds a particularly important, although not exclusive, application in the field of stackable corrugated cardboard trays that are sufficiently strong to contain products of various shapes such as for example fruit or semirigid sachets of the soup sachet type, which can therefore not themselves play a role in resistance to compression of the packaging.
Single-blank corrugated cardboard trays have been known for a long time.
These trays do not naturally withstand compression as much as closed packages of the American box type.
To partially alleviate this drawback, trays have been proposed comprising corner returns or beams.
Moreover, the latter have thus made it possible to substantially reduce basis weights relative to conventional packaging.
Such single-blank packages however have drawbacks.
In particular, they are not easy to stack.
Specifically, in order to allow them to be stacked firmly and securely, the prior art of the tray provides for stacking tenons.
However, the latter are fragile and difficult to insert precisely and repetitively into the corresponding mortices.
Another drawback of the known single-blank trays is due to the horizontal corrugations of two side faces which therefore contribute only very slightly to the compression-resistance of the tray.
Moreover, although certain trays can be made fairly resistant to vertical compression by virtue notably of protruding elements and/or corner beams, the bending of the bottoms of the trays continues for its part to pose problems.
Finally, it has unfortunately been found that the slightest defect of geometry of the trays of the prior art, generally formed by pressing in a cavity, has a considerable impact on their Vertical Compression Resistance (VCR).
The object of the present invention is to alleviate these drawbacks by proposing a tray made of cardboard sheet material, a set of blanks, a device and a method for manufacturing such a tray, that provide a better answer than those previously known to the requirements of the practice, notably in that it proposes an easily stackable tray made of three elements of which two side elements form side beams, each furnished with a flap for bonding to the bottom of the third element.
Such a tray is tolerant to defects of geometry, without compromising its VCR.
Each of the three elements will be able to oriented and dimensioned, in basis weight and in thickness of corrugation, so as to optimize its function, namely either resistance to vertical compression or resistance to buckling.
Advantageously, the invention makes it possible in particular to provide vertical corrugations for each of the side walls while allowing simple, effective and durable stacking of the trays.
For this purpose, the present invention proposes notably a tray made of cardboard sheet material, characterized in that it is formed of three separate parts, namely a first part forming a bottom connected by first fold lines to two first opposite side walls and two second parts forming two second opposite side walls each comprising at least one first longitudinal flap connected to the second wall by a second fold line and bonded to the bottom and two sets of transverse flaps each comprising at least one transverse flap respectively bonded to a corresponding first side wall facing it.
In particular embodiments, use is made of one and/or the other of the following arrangements, in isolation or in combination:
The invention also proposes a set of blanks to form a tray made of cardboard sheet material as described above.
Advantageously, it also proposes a set of blanks to form a tray made of cardboard sheet material, characterized in that it comprises a first blank formed of a bottom connected by first fold lines to two first opposite side walls and a second blank capable of forming two second opposite side walls of said tray that are identical and placed on either side relative to a line of separation, each second side wall each comprising at least a first longitudinal flap connected on one side to a corresponding second wall by a second fold line and on the other side by said line of separation to the outer periphery of the other first longitudinal flap of the other second symmetrical side wall facing it, said first longitudinal flaps being arranged to be bonded to the bottom and each second wall also comprising two sets of transverse flaps, said sets each comprising at least one transverse flap suitable for being respectively bonded to a corresponding first side wall facing it when the tray is formed.
In advantageous embodiments, use is also made of one and/or the other of the following arrangements:
The invention also proposes a device for forming a tray from two blanks of cardboard sheet material or corrugated cardboard, namely a first blank formed of a bottom connected by first fold lines to two first opposite side walls and a second blank capable of forming two second opposite side walls of said tray, that are identical and symmetrical relative to a line of separation, each second side wall each comprising at least one first longitudinal flap connected on one side to a corresponding second wall by a second fold line and on the other side by the said line of separation to the outer periphery of the other first longitudinal flap of the second symmetrical side wall facing it, and two sets of transverse flaps each comprising at least one transverse flap,
characterized in that it comprises
two storage magazines for storing respectively the first and second blanks,
means for cutting the second blank at the line of separation to form the two second opposite side walls, means for picking up and transferring the first blank from the storage magazine to an assembly station, means for firmly positioning the first blank in abutment in order to give it an exact reference position,
means for picking up and transferring laterally by suction cups the second walls in order to place them on the first blank cut-out thus indexed,
means for pasting the first longitudinal flaps and the inner face of the second walls and/or of the sets of second flaps during their transfer,
means for pressing the first longitudinal flaps on the first blank,
means for folding the sets of flaps toward the second walls,
means for transferring the set of blanks thus constituted to a forming station, and forming means at said forming station.
Advantageously, the forming means comprise a mandrill and means for winding the set of blanks around said mandrill in order to form the tray.
Equally advantageously, each set of transverse flaps comprising a first transverse flap connected to the corresponding second side wall by a third fold line and a second transverse flap connected by a fourth fold line to said first transverse flap, said second transverse flaps each being themselves connected by a fifth fold line to a third transverse flap, the means for folding said sets comprise pins for forming a corner of the tray and pushing means for pressing said third transverse flaps onto the inner face of the second walls facing them.
In one advantageous embodiment, each second wall also comprising at least one second longitudinal flap connected to said second wall by a sixth fold line on the side opposite to the first longitudinal flap, the device also comprises means for folding said second longitudinal flap to form at least two lugs or two protruding elements on either side of the tray, and the mandrill can be retracted between a position of forming the tray and a position of escapement from the lugs or protruding elements.
Equally advantageously, each second wall comprising three central fold lines parallel to the third fold lines and two first longitudinal flaps situated on either side of said central fold, the device comprises means for folding said three lines to form in the middle of said second walls a central fold in an isosceles triangle.
The invention also proposes a method for forming a tray from two blanks of cardboard sheet material or corrugated cardboard, namely a first blank formed of a bottom connected by first fold lines to two first opposite side walls and a second blank capable of forming two second opposite side walls of said tray, identical and symmetrical relative to a line of separation, each second side wall each comprising at least one first longitudinal flap connected on one side to a corresponding second wall by a second fold line and on the other side by said line of separation to the outer periphery of the other first longitudinal flap of the second symmetrical side wall facing it, and two sets of transverse flaps each comprising at least one transverse flap,
characterized in that, after cutting the second blank at the line of separation to form the two second opposite side walls,
the first blank is transferred to an assembly station, the first blank is firmly positioned in abutment in order to give it an exact reference position,
the second walls are transferred laterally by suction cups while pasting the first longitudinal flaps and the inner face of the second walls and/or the sets of second flaps during their transfers,
then they are placed on the first blank cut-out thus indexed,
the first longitudinal flaps are pressed onto the first blank,
the sets of flaps are folded toward the second walls, and the set of blanks thus constituted is transferred to a forming station to form the tray.
In one advantageous embodiment, the forming is carried out by winding around a mandrill.
Advantageously, each set of transverse flaps comprising a first transverse flap connected to the corresponding second side wall by a third fold line and a second transverse flap connected by a fourth fold line to said first transverse flap, said second transverse flaps each being themselves connected by a fifth fold line to a third transverse flap,
said sets are folded around pins to form a corner of the tray and said third transverse flaps are pressed onto the inner face of the second walls facing them.
Equally advantageously, each second wall also comprising at least one second longitudinal flap connected to said second wall by a sixth fold line on the side opposite to the first longitudinal flap, said second longitudinal flap is folded to form at least two lugs or two protruding elements on either side of the tray, and the mandrill is retracted between a position for forming the tray and a position of escapement from the lugs or protruding elements.
In one advantageous embodiment, each second wall comprising three lines of central folds parallel to the third fold lines and two first longitudinal flaps situated on either side of said central fold, said three fold lines are folded to form, in the middle of said second walls, a central fold in an isosceles triangle.
The invention will be better understood on reading the following description of embodiments given below as nonlimiting examples and with reference to the drawings which accompany it in which:
In the rest of the description of the figures, the same reference numbers will be used to indicate identical or similar elements.
Each tray 1 is formed of three separate parts 2, 3 and 4, namely a first part 2 forming a bottom 5 connected by first fold lines 6 to two first side walls 7 and two second parts 3 and 4 forming two second opposite side walls 8 and 9 each comprising a first longitudinal flap 10, 11 connected to said second wall 8, 9 by a second fold line 12, 13 that is advantageously slightly offset to compensate for thicknesses of cardboard, at least in part, and bonded to the lower face of the bottom 5.
Each second wall 8, 9 comprises two sets of transverse flaps 14, 15 each comprising at least one transverse flap 16 respectively bonded to the inner face of a corresponding first side wall 7 facing it.
More precisely, on the tray shown in
Each set of flaps 14, 15 also comprises second, rectangular transverse flaps 20 connected by a fourth fold line 21 to said first transverse flap (see
As shown in
This fitting stems notably from the fact that since the flaps 10 and 11 are bonded to the bottom 3 of the tray above they protrude relative to the bottom, which therefore allows a fitment with the upper periphery of the pillars while allowing a self-centering and a lateral immobilization of one tray over the other.
It can be understood therefore that the existence of these flaps bonded to the lower outer face of the bottom allows excellent stacking of the trays on one another.
More precisely, and still with reference to
The first longitudinal flaps 10, 11 are of substantially trapezoidal shape, the small base being formed by the second fold line 12, 13 and the large base itself having the dimension smaller than the total length of the second wall (8, 9) to which the first flap 10, 11 is attached, the respective lateral sides 28 of said first flap being for example nose-shaped in order to allow the fitting by their matching shape with the space between the pillars of the tray above.
A recess 29 between the first two adjacent flaps 10, 11, that are symmetrical relative to the oblong blank cut-out line 28, is advantageously provided.
The tongues 31 are themselves extended laterally by a small rectangular tongue 34 situated level with the first transverse flap 17 which makes it possible (see
According to the embodiment of
In other embodiments (
Finally, in another embodiment of first parts 43 and with reference to
Shown in
More precisely,
The latter, for their part, comprise on their upper periphery 52 second longitudinal flaps 53 suitable for forming rectangular horizontal protruding elements and comprising on each side two small, square, lateral tongues 54 folded down on the outer face of the corresponding first transverse flap 56 of the second wall in question.
These elements will notably allow fitment with the first flaps facing them protruding from the bottom of the tray.
In the embodiment of
The fitment is in this instance possible between these two small triangular tongues 69 and the first flap of matching shape.
In another embodiment (
Shown in
More precisely, a blank 85 is proposed formed of two second parts 82 that are symmetrical relative to a central axis 86 comprising second rectangular walls 87 furnished with the first longitudinal flap 10, 11 like those described with reference to the preceding figures and on either side two transverse flaps 88 of trapezoidal shape, namely comprising a first side 89 formed by the fold line and connected to its second outer peripheral side 90 by two parallel sides 91 inclined outward, on the side opposite to the first longitudinal flap 10, 11.
For its part, the first part is then formed of a rectangular bottom 92 furnished with the two first walls 93 which themselves comprise lateral sides 94 sloping inward to form isosceles trapeziums of which the small side 95 is formed by the outer peripheral edge.
These upper edges 96 of the second walls 87 comprise notches 97 capable of fitting into the edges 98 of the longitudinal flaps 10 and 11 overlapping.
The second blank 99 making it possible to produce the second walls is for its part formed symmetrically on either side of a line of separation 100, by a first rectangular tab 101 furnished at its centre with a fold line around which are situated on either side and symmetrically two parallel fold lines 103, then the third fold line 104 for attachment to the first transverse tabs 105, the outer upper periphery of this second wall also comprising tongues 106 of the type described with reference to
The second walls, once separated relative to their junction line (see
The tray 108 is then formed in a manner similar to the previous packages.
A description will now be given, more precisely with reference to
From two blanks of corrugated cardboard sheet material, namely a first blank F formed of a bottom 5 connected by first fold lines 6 to two first opposite side walls 7 and a second blank 27 suitable for forming two second opposite side walls 8, 9, identical and symmetrical relative to the line of separation 28, each second side wall comprising at least one first longitudinal flap 10, 11 connected on one side to a corresponding second wall 8, 9 by a second fold line 12 and on the other side by said line of separation 28 to the outer periphery of the other first longitudinal flap of the second symmetrical side wall facing it, and two sets of transverse flaps 14, 15 each comprising at least one transverse flap 24, the second blank is cut (step 110) at the line of separation 28 to form the two second parts.
The two second parts are then transferred (arrow 111) to an assembly station 112 while bonding on the way the inner faces of the walls 8, 9 and the flaps 10, 11 and 24 with adhesive called “hot melt” adhesive in a manner known per se.
Then the first blank F is transferred (arrow 114) from its constant-level vertical stack 115 and the blank is pressed onto the flaps 10 and 11 as shown in
Then the elements 117 are brought (arrow 116) which will allow the folding of the corner pillars and which will be described more precisely below with reference to the device.
With reference to
Shown now with reference to
The device comprises two storage magazines 131 and 132 for storing the first blanks F and second blanks 27, said magazines being formed by elevator carriages on which the blanks are held firmly and stacked flat, the carriage rising gradually as the stack is depleted.
The storage magazine for the second blanks is moreover furnished with a cutting blade (not shown) for cutting the second blank into two symmetrically at the line of separation 28.
Two extractor arms 133 and 134 (see
The first blank F is for its part brought laterally by means of a carriage 138 to the assembly station comprising a transfer conveyor 139.
More precisely, with reference to
It comprises the two arms 133, 134 for widthwise positioning. This gripper carriage is actuated by a drive belt 141 for the transfer to the assembly station.
Means for adhesive coating 137 of the blanks for assembly are provided during the travel of the second blanks.
They are for example formed of adhesive-coating guns known per se.
Once the blank is in position on the transfer conveyor 139, a transfer stop (not shown) at the different stations allows the assembly thus firmly held to be picked up to bring it to the next station.
The device 130 furthermore comprises a station 142 for forming the dihedrons or corner pillars and more particularly a system for forming and pressing the dihedrons comprising pistons 143 and a carriage 144 for lowering a part comprising dihedrons 145 formed for placing in counter pressure.
A system 146 for folding the dihedrons to 90° by pusher piston is also provided, the carriages 148 for bringing the beams 149 of triangular cross section for formation of the dihedrons in motorized manner also being provided beneath the forming station.
Pre-assembly adhesive-coating guns that are adjustable by slide rail are positioned appropriately, a system (not shown) for vertical folding of the type described with reference to
It therefore comprises vertical arms 150 that are rounded in the upper portion to facilitate docking and to push away the vertical flaps.
Once the beams are formed, the carriages 148 for bringing the beams 149 for forming dihedrons are withdrawn and the assembly is pushed by means of the conveyor 139 toward the forming station 151 around the mandrill 152.
Here again, pre-assembly adhesive-coating guns (not shown) are provided in a manner known per se, and a system 153 for folding and pressing the bottom that is adjustable in two directions by a screw system.
The system 153 is arranged to press the vertical walls of the tray onto the side faces of the mandrill 152 brought down from above.
Note that the latter can be changed at the format level.
The system 153 comprises an element 154 arranged to move between a low position 155 of escapement from the vertical strips 156 with horizontal curved end 156′ and a high position 157 for pressing the strips onto the walls 8 and 9 on the one hand and 7 on the other hand for bonding with the outer faces of the corner pillars 14, 15.
The operation of the device according to the embodiment of the invention more particularly specified here will now be described.
The second parts or end blank cut-outs are unstacked one by one from the constant-level magazine 132.
The two peripheral edges of the two first longitudinal flaps 10 and 11 being connected by attachment points, the unstacking is carried out by the two systems represented in
Each unstacker has a different high point which makes it possible to release the attachment points and thereby to separate the two distinct second parts or end blank cut-outs.
These end blank cut-outs are transferred to the coupling station 136, and during this transfer the connecting panels are adhesive-coated and placed in widthwise position by the two independent onboard carriages 140 controlled by servomotors.
The ends are then positioned at the coupling station which comprises a conveyor belt 139.
At the same time, a bottom blank cut-out and/or first part is extracted from the constant-level magazine 131.
The transfer of the bottom blank cut-out is carried out at the coupling station by means of a carriage 138 also controlled by servomotors.
During this transfer, an onboard bonding system places the adhesive necessary for creating the dihedrons of the ends.
The bottom is then placed under pressure on the ends and the assembly is transferred to the dihedron-forming station.
The dihedron-forming station 146 includes the positioning of four counter-forms corresponding to the dimension of the dihedrons (two right-hand systems and left-hand systems controlled by servomotors).
Then the dihedrons are positioned vertically around their scoring (fold lines) by a ramp and the dihedrons are placed horizontally around their complementary scorings by a dynamic system and finally the dihedrons are formed and placed under pressure around the next scorings by a tool comprising pistons 143 and then the counter-forms are withdrawn.
Then the transfer to the assembly station is carried out.
During this transfer, the bottom is adhesive-coated.
The tray is then assembled by lowering of the mandrill (internal) onto the flat tray and the ends of the walls 8 and 9 are then placed vertically, followed by the bottom panels 7 before the tray is placed under pressure and then ejected.
Note that, in the case in which the ends are fitted with total or partial protruding elements, they are formed at the assembly station, the internal mandrill then being retractable in order to allow its disengagement.
As can be seen in the figures, the area of cardboard of the bottom at the second fold line is divided into three portions namely a central area 170 facing the longitudinal flap 165 and two areas 171 situated on either side of the edges of the flap and the first walls.
In order to minimize the extra thickness of the flap bonded on the underside of the bottom in the area 170 and formed so that the bottom deforms vertically to allow the border of the flap to be aligned with the clean borders 172 of the areas 171, areas 173 are provided substantially in the form of tongues along or at the edge of a portion of the first fold line, for example having a width equal to half that of the area 171 and being long enough to obtain a good elasticity, for example a few centimeters depending on the thickness of the cardboard.
This localized squashing of the cardboard at the ends of the bottom thus allows a slight bowing (see
Recesses 186 on the fold lines 181, in the tab 182 of a shape to match the tongues 178, to allow fitment, are provided.
In one embodiment shown in dot and dashed lines in
It goes without saying and it also results from the foregoing that the present invention is not limited to the embodiments more particularly described. On the contrary, it covers all the variants thereof and notably those in which the blanks of the first side walls and of the bottom are of high basis weight, for example 100 g/m2, and that of the second walls and of low basis weight for example less than 50 g/m2, those in which the forming station is different, the formation of the tray being carried out by pressing in a manner known per se, or other methods not using a mandrill, those in which the side squashed areas allowing bowing are replaced by a central squashed area, the tongue 178 then being situated for example inside the box, bonded to the inner face of the bottom.
Number | Date | Country | Kind |
---|---|---|---|
09 01304 | Mar 2009 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2010/000241 | 3/22/2010 | WO | 00 | 11/11/2011 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/106255 | 9/23/2010 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2021254 | Claff | Nov 1935 | A |
RE23257 | Hunsworth | Aug 1950 | E |
2784900 | Bauer | Mar 1957 | A |
2794588 | George et al. | Jun 1957 | A |
3863831 | Wozniacki et al. | Feb 1975 | A |
4461137 | Wood | Jul 1984 | A |
5549242 | Gimeno | Aug 1996 | A |
7635080 | Conway | Dec 2009 | B2 |
8323165 | Atoui | Dec 2012 | B2 |
20030168502 | Kisch | Sep 2003 | A1 |
20040056081 | Christensen et al. | Mar 2004 | A1 |
20070102497 | Borek et al. | May 2007 | A1 |
20080032878 | Kisch | Feb 2008 | A1 |
20080081754 | Plemons et al. | Apr 2008 | A1 |
Number | Date | Country |
---|---|---|
3134666 | Mar 1983 | DE |
2196636 | Mar 1974 | FR |
2885881 | Nov 2006 | FR |
10194285 | Jul 1998 | JP |
Entry |
---|
International Search Report for PCT/FR2010/000241 dated May 19, 2010. |
Number | Date | Country | |
---|---|---|---|
20120111933 A1 | May 2012 | US |