US20180050833A1

US20180050833A1 - System and method for automating packaging items varying in size and number for shipment

Info

Publication number: US20180050833A1
Application number: US15/676,653
Authority: US
Inventors: Herman Sytema; Fokke de Boer
Original assignee: Neopost Technologies SA
Current assignee: Quadient Technologies France SA
Priority date: 2016-08-16
Filing date: 2017-08-14
Publication date: 2018-02-22
Also published as: EP3284687B1; EP3284687A1

Abstract

A system for automating packaging items that vary in size and number for shipment, comprising a packaging station for holding a pre-folded cardboard box to receive one or more items to be packaged, said pre-folded cardboard box having a bottom panel, two side panels and a first end panel, the first end panel being joined to each of said side panels, the side panels and the end panel being erected from the bottom panel to form a box having an open top and an open side, the bottom panel having an end portion intended to form a second end panel, each side panel having an end portion intended to form a corner panel, at least one cutting unit for adjustably shortening the end portions of the side panels and the end portion of the bottom panel and at least one folding unit for folding the corner panels and the second end panel to close said open side of the box.

Description

TECHNICAL FIELD

The disclosure relates to a system and a method for automating packaging items that vary in size and number for shipment.

BACKGROUND

Mail ordering has become a widely used way of buying goods. More and more companies offer virtual department stores, in which the customers can electronically put goods in a shopping cart that later will be transferred by the respective company into a dispatch order, so that in a warehouse a shipment comprising the items ordered (and sometimes additional items such as samples, vouchers, invoices, etc.) can be assembled based on the respective dispatch order.
While assembling a shipment in a warehouse is nowadays often done more or less fully automated, packaging the items to be shipped is still a challenge, in particular when a shipment comprises several items of different sizes and in different quantities. Often, the items to be packaged are provided automatically to a person packaging the items manually. Depending on the size and number of the items, the person selects a suitable box size. Generally the box is a cardboard box that upon packaging is assembled from a corresponding cardboard blank.
To automate the packaging process even in cases where the items vary in size and number, a system has been proposed in WO 2014/117817 A1 that allows creating a fully custom sized box, i.e., a box, of which width, length and height are adapted to the respective content of the box. The box is created from a roll or a stack of cardboard by cutting out and creasing a custom sized blank from which then the box is folded automatically.
WO 2016/059218 A1 discloses a system and a method for automatically packaging items varying in size and number applying two separate packings, namely an inner packing surrounding the items to be packaged in a first direction, and an outer packing surrounding the inner packing in a second direction, said second direction being substantially perpendicular to the first direction such that the inner and the outer packing form a combined package enclosing the package items from all sides.
WO 2013/117852 A1 discloses a system and a method for reducing the height of a cardboard box to the apex of the highest item in the box. In this respect, it should be noted that the terms “height”, “length” and “width” as used herein refer to the usual definitions of the three dimensions of a box having the shape of a rectangular block with a rectangular bottom and two pairs of parallel rectangular sidewalls, wherein

- the height of the box is defined by the length of the sidewalls in the direction from the bottom to the top of the box,
- the width of the box is defined by the length of the bottom between the first pair of parallel sidewalls, usually the pair of sidewalls forming for an observer the left and the right sidewalls of the box, and
- the length (sometimes also called depth) of the box is defined by the length of the bottom between the second pair of parallel sidewalls, usually the pair of sidewalls forming for an observer the front and the back of the box.

It is hence obvious that depending on the position of the observer, the terms length and width can be interchanged. For sake of simplicity, in the following it is assumed that the box is seen from one perspective and length and width hence have a distinct meaning, which however is not limiting and obviously what in the following is called width can be named length (or depth) and vice versa.

BRIEF SUMMARY

While the known systems and methods work well for a number of applications, it has turned out that there is a need for optimization of the packaging process under a number of aspects. Depending in particular on the number and the shape of the items to be packaged, creating a custom sized box around items to be packaged can be difficult. If pre-fold boxes are used as disclosed in WO 2013/117852 A1, of which the height can be changed, the finished package may not be optimal with respect to volume, while transportation costs often do not only depend on the weight, but also on the volume of a package. Besides, placing the items in a pre-folded box having the usual rectangular block shape with a bottom and four sidewalls and being open only towards the top, usually requires gripping and lifting the items over one of the sidewalls, which in particular in cases, in which a huge variety of items of different shapes and sizes needs to be packaged, can be difficult to automate.
A system and a method allows customizing at least the length of a box. A system and a method employs a pre-folded, and hence stable box, being open not only towards the top, but also towards one of the sides, which pre-folded box may also be used for assembling a number of items, which shall be shipped together in a single package.
A system can be summarized as set out in claim and a method summarized as set out in claim 9. The respective dependent claims refer to advantageous embodiments of the respective independent claims.
The disclosure is based on the idea that by placing the items to be shipped on a cardboard box having a bottom panel, two side panels and a first end panel, the first end panel being joined to each of said side panels, the side panels and the end panel being erected from the bottom panel to form a box having an open top and an open side, a huge variety of items differing in number and shape can be packaged using the same pre-folded box, which is then adapted in at least one dimension, namely length. This idea as well as advantages and different variations of the disclosure will become apparent from the following description of preferred embodiments in conjunction with the drawings.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 shows a pre-folded cardboard box according to the disclosure.

FIG. 2 shows a blank for forming the box according to FIG. 1

FIG. 3 shows the pre-folded box according to FIG. 1, in which some items to be packaged in the box are arranged

FIG. 4 shows the box according to FIG. 3 after the end portions of the side panels and the bottom panel have been shortened.

FIG. 5 shows the box according to FIG. 4 after crease lines have been introduced in the side panels and the bottom panel to define second corner panels and a second end panel.

FIG. 6 shows the box according to FIG. 5 after the second corner panels have been folded inwards.

FIG. 7 shows the box according to FIG. 6 after the second end panel has been folded upwards.

FIG. 8 shows the box according to FIG. 7 after the height of the box has been shortened to the filling level of the box.

FIG. 9 shows the box according to FIG. 8 after lid has been placed on top of the box.

FIG. 10 shows a box according to FIG. 4 and a thin plate used for facilitating folding the end portions of the side panels and the end portion of the bottom panel.

DETAILED DESCRIPTION

FIG. 1 shows a pre-folded box 10 that is open towards two sides, namely in this view towards the top and towards the front, while the box is closed towards four sides, namely towards the bottom, towards the back and towards the left and the right.
The bottom is formed by a bottom panel 12, the left and right sides are formed by two side panels 14 and 16, and the back side is formed by two first corner panels 18 and 20 and a first so-called end panel, which in this view is covered by the first corner panels 18 and 20.
FIG. 2 shows a cardboard blank 22 for forming a box according to FIG. 1. In FIG. 2, the first end panel 24 can be seen. It should be noted that the terms “side panels”, “end panels” etc. are just used to easily distinguish the different panels and that apparently in the completely folded state (as shown, e.g., in FIG. 7) the panels form a box that has a bottom and four side walls.
FIG. 3 shows a different perspective of the pre-folded box 10 according to FIG. 1 in a situation, in which some items 26, 28, 30, 32 and 34 have been placed in the box. In order to optimize the box with respect to volume, the pre-folded box is then adapted to the dimensions of the arrangement of items in the box by shortening the panels forming the box as will now be described.
FIG. 4 shows the situation, in which the bottom panel 12 and the side panels 14 and 16 of the box 10 have been shortened by cutting. The amount of shortening is adapted to the space needed by the items placed in the pre-folded box and in some cases the panels may not be shortened at all.
FIG. 5 shows the box 10 according to FIG. 4, in which crease lines 36, 38 and 40 have been introduced into the side panels 14 and 16 respectively the bottom panel 12, such that the end portions of the side panels 14 and 16 now define second corner panels 42 and 44, and the end portion of the bottom panel 12 defines a second end panel 46. Cuts 48 and 50 have been introduced along the borderlines between the second corner panels 42 and 44 and the second end panel 46 in order to allow folding. This cutting can be done by the same cutting unit which also shortened the side panels 14 and 16 and the bottom panel 12 or by a separate unit. The cutting as well as the shortening can obviously be done prior to, parallel to or after introducing the crease line 36, 38 and 40.
FIG. 6 shows the box 10 according to FIG. 5 in a situation, in which the second corner panels 42 and 44 have been folded inwards around the crease lines (36 and 38 in FIG. 5) to close the open side of the box. Prior to folding or after folding, glue can be applied to the second end panel 46 on the side facing the second corner panels 42 and 44 and/or on to the second corner panels 42 and 44 on the side facing the second end panel 46.
FIG. 7 shows the box 10 according to FIG. 6 in a situation, when the second end panel 46 has been folded around the respective crease line (40 in FIG. 5) against the second corner panels 42 and 44. The box may then be closed by a lid. However, according to a preferred embodiment, a cutting unit is provided that allows also shortening the height of the box. Such cutting unit may be the same cutting unit that is used for shortening the bottom panel 12 and the side panels 14 and 16 as described above, or may be separate cutting means.
FIG. 8 shows the box 10 according to FIG. 7, in which the height of the box has been shortened either to match or to be slightly greater than the maximum height of the arrangement of items in the box, which in this example is defined by the cylindrical items 30 and 32. The height of the box is defined by the length of the respective erected panels in the direction from the bottom panel to the open top of the box. Accordingly, width of the box is defined by the length of the bottom panel in the direction from one side panel 14 to the other side panel 16, and length of the box is defined by the length of the bottom panel in the direction from one end panel 22 to the other end panel 46.
For shortening the respective panels 14, 16, 18, 20 and 46 as well as the second corner panels and the first end panel, which in the view of FIG. 8 have no separate reference numbers, the same or a different cutting unit, e.g., a laser cutting unit, can be used that is used for shortening the end panel 12 and the side panels 14 and 16 as described in conjunction with FIG. 4 respectively for introducing the cuts 48 and 50. It is obvious that the shortening of the panels defining the height of the box can be done prior to, parallel to or after shortening the second corner panels and the bottom panel as described in conjunction with FIG. 4.
FIG. 9 shows the box 10 according to FIG. 8 after a lid 52 has been placed on the open top of the box in order to close the box. In this embodiment, the lid 52 has four flaps, of which only two, namely flaps 54 and 56, are visible in FIG. 9. The flaps may be glued to the respective panels of the box, i.e., the flap 54 may be glued to the second end panel 46 respectively the flap 56 may be glued to the side panel 16.
FIG. 10 shows a box according to FIG. 4 and a thin plate 58 that is used instead of or additionally to the crease lines shown in FIG. 5 for facilitating folding the end portions of the side panels 14 and 16 into second corner panels 42 and 44, and the end portion of the bottom panel 12 into a second end panel 46, once cuts have been introduced along the borderlines between the second corner panels 42, 44 and the second end panel 46 in order to allow folding.
Plate 58 has approximately the width of the open front of the box 10 formed between the side panels 14 and 16 and the bottom panel 12 and is placed in the box against the items in the box. In this embodiment, plate 58 has a width slightly less than the width of the pre-folded box 10. The second corner panels 42, 44 and the second end panel 46 can then be formed by folding the respective end portions of the side panels 14 and 16 respectively the end portion of the bottom panel 12 around the respective edges 60, 62, 64 of the plate 58. Hence, plate 58 functions as a fold blade. When using such plate, it may, depending in particular on the characteristics of the cardboard used, not be necessary to indent crease lines. Plate 58 also facilitates keeping the items in the box 10 and can also support the second corner panels 42 and 44 from inside the box in case they are glued to the second end panel 46, which would then be pressed against them from outside the box. Typically, the plate 58 will be a thin and stiff metal plate.
In this embodiment, plate 58 comprises two handles 66 for positioning it automatically or manually. Preferably, plate 58 is positioned in the box by moving it along a path that ensures that items in the box are not jammed between the plate and, e.g., the bottom panel, e.g., by inserting the plate from the open side such that its main surfaces run substantially parallel to the first end panel and moving it towards the first end panel. Depending on the installation situation, the plate may follow different insertion paths. The plate can be retracted once the corner panels 42, 44 and, optionally, also the second end panel 46 have been folded.
Within the scope of protection of the disclosed embodiments, which scope of protection is only defined by the appended claims, numerous variations and embodiments are possible. For example, whereas in the shown embodiments the first corner panels and the second corner panels each have a length corresponding to the half of the width of the bottom panel 12, such that the free ends of the respective corner panels abut against each other, it is obvious that the corner panels may overlap or may form a gap between them.
It is obvious for an expert that the crease lines shown in FIG. 5 are arranged such that the thickness of the cardboard, in particular corrugated cardboard, which is used for the box, is taken into account, so that the crease lines defining the second corner panels are in a slightly different plane than the crease line defining the second end panel in order to allow that all three panels may form a right angel with the respective panel, from which they are folded.
It is also obvious for an expert that, while in the shown embodiments the corner panels in the finished box lie in the inside of the box and the first and second end panels form part of the outside of the box, it is as well possible that the order is reversed and the end panels are inside the box and the corner panels are outside the box.
While in a preferred embodiment the corner panels and the end panels are glued together, it is as well possible to use other means for fixing and stabilizing the box, i.e., attaching the respective panels to each other by means of self-adhesive tape or the like.
It is also possible to introduce crease lines between the side panels and the end panel as well as additional 45° crease lines in either the corner panels 42 and 44 or the end panel 46, originating from the intersection of the bottom panel 12, the end panel 46 and the respective corner panels 42 and 44, such that the corner panels can be folded inwardly without introducing cuts.
One or more of the disclosed embodiments provide advantages in that blanks of a standard shape respectively standard pre-formed boxes can be used to form a huge variety of different sized boxes such that advantageously not a lot of different boxes have to be kept in stock at a packaging company.
One or more of the disclosed embodiments advantageously allow adjusting at least the length (or, depending on the view, the width) of a box in order to fit optimal to the arrangement of items to be packaged in the box. In a preferred embodiment, also the height of the box can be adjusted.
Depending on the volume of boxes needed, it may be advantageous for customers to apply an optional box forming unit that may produce pre-folded boxes on-site. Such box forming unit may even be adapted to form custom sized pre-folded boxes from cardboard blanks or from cardboard continuously fed to the box forming unit from a stack of zig-zag-folded corrugated cardboard, such that all dimensions of the boxes can be varied as needed.
The items in the box may be arranged manually or automatically in the box. The dimensions of the arrangement may be measured, e.g., by a laser measuring unit or may be calculated from data known about the arrangement and/or the single items in the arrangement. It may be foreseen that a central control unit calculates an optimal arrangement of the items to be packaged and either controls a placing unit for automatically arranging the items or displays the optimal arrangement via a screen to a person manually arranging the items in the box.
In order to ensure proper support of the items upon closing the open side of the box by folding the respective panels, the cardboard box may be held such that the bottom panel is slightly inclined downwards from the open end towards the first end panel, ensuring that gravity forces the arrangement against the end panel and at least one of the respective side panels.
The respective pre-fold box may even be used for assembling the items to be shipped, i.e., the box can be placed on a trolley used by an order picker to pick up the items of an order from a storage. Obviously, the trolley could advantageously also be adapted to hold the pre-folded box slightly inclined such that items placed in the box cannot fall out of the open end of the box.

Claims

1. A system for automating packaging items that vary in size and number for shipment, comprising

a packaging station for holding a pre-folded cardboard box to receive one or more item(s) to be packaged, said pre-folded cardboard box having a bottom panel, two side panels and a first end panel, the first end panel being joined to each of said side panels, the side panels and the end panel being erected from the bottom panel to form a box having an open top and an open side, the bottom panel having an end portion intended to form a second end panel, each side panel having an end portion intended to form a corner panel,

at least one cutting unit for adjustably shortening the end portions of the side panels and the end portion of the bottom panel, and

at least one folding unit for folding the corner panels and the second end panel to close said open side of the box.

2. The system according to claim 1, wherein at least one cutting unit is adapted to introduce cuts between the end portions of the side panels intended to form said cornels panels and the end portion of the bottom panel intended to form said second end panel.

3. The system according to claim 1, further comprising a box forming unit for producing pre-folded boxes each having a bottom panel, two side panels and a first end panel, the first end panel being joined to each of said side panels, the side panels and the end panel being erected from the bottom panel to form a box having an open top and an open side from cardboard blanks.

4. The system according to claim 1, further comprising a lid placing unit for placing a lid on top of the fully folded box.

5. The system according to claim 1, wherein said packaging station is adapted for holding the pre-folded cardboard box such that the bottom panel is slightly inclined downwards from the open end towards the first end panel.

6. The system according to claim 1, further comprising a central control unit calculating a possible arrangement of the item(s) to be packaged that is optimized under predetermined criteria such as volume and/or stability of the finally folded box.

7. The system according to claim 1, further comprising a cutting unit for adjustably shortening the panels defining the height of the box.

8. The system according to claim 1, further comprising at least one creasing unit for introducing a crease line in the bottom panel to define the second end panel and/or for introducing a crease line in each side panel to define the respective corner panel.

9. A method for automating packaging items that vary in size and number for shipment, comprising:

arranging one or more item(s) to be packaged in a pre-folded cardboard box, said pre-folded cardboard box having a bottom panel, two side panels and a first end panel, the first end panel being joined to each of said side panels, the side panels and the end panel being erected from the bottom panel to form a box having an open top and an open side, the bottom panel having an end portion intended to form a second end panel, each side panel having an end portion intended to form a corner panel,

depending on the dimensions of the arrangement of the one or more item(s), shortening as needed the end portions of the side panels and the end portion of the bottom panel, and

folding the second corner panels and the second end panel to close said open side of the box.

10. The method according to claim 9, further comprising applying glue to the second end panel and/or to the corner panels prior to folding it/them.

11. The method according to claim 9, further comprising introducing cuts between the end portions of the side panels intended to form said corner panels and the end portion of the bottom panel intended to form said second end panel.

12. The method according to claim 9, further comprising determining the height and/or the length of an arrangement of items placed on the bottom panel prior to shortening the panels.

13. The method according to claim 9, further comprising shortening the panels defining the height of the box.

14. The method according to claim 9, further comprising introducing a crease line in the bottom panel to define the second end panel and/or of introducing a crease line in each side panel to define the respective corner panel.

15. The method according to claim 9, further comprising placing a plate inside the box at the open side against the item(s) placed within the box.