This application claims priority to PCT Application No. PCT/US2018/020928, filed Mar. 5, 2018, entitled “A BOX ERECTING METHOD AND SYSTEM”, which claims the benefit of and priority to Sweden Application No. 1750247-7, filed Mar. 6, 2017. All the aforementioned applications are incorporated by reference herein in their entirety.
The present invention relates to a box erecting method and system and to a box production method and system.
Erecting boxes from box templates in for example shipping and packaging industries can be done manually and/or with help from some erecting tools. These tools could for example comprise vacuum tools for gripping certain parts of a box template while folding other parts, such as for example a bottom of the box. Automatic erecting of boxes may encounter problems for example when different sizes of boxes should be erected with use of the same tools and/or if the box walls are not as stable as required, for example due to folds provided in the templates due to a fanfold storage of the template material.
Shipping and packaging industries frequently use cardboard and other sheet material processing equipment that converts sheet materials into box templates. One advantage of such equipment is that a shipper may prepare boxes of required sizes as needed in lieu of keeping a stock of standard, pre-made boxes of various sizes. Consequently, the shipper can eliminate the need to forecast its requirements for particular box sizes as well as to store pre-made boxes of standard sizes. Instead, the shipper may store one or more bales of fanfold material, which can be used to generate a variety of box sizes based on the specific box size requirements at the time of each shipment. This allows the shipper to reduce storage space normally required for periodically used shipping supplies as well as reduce the waste and costs associated with the inherently inaccurate process of forecasting box size requirements, as the items shipped and their respective dimensions vary from time to time.
In addition to reducing the inefficiencies associated with storing pre-made boxes of numerous sizes, creating custom sized boxes also reduces packaging and shipping costs. In the fulfillment industry it is estimated that shipped items are typically packaged in boxes that are about 65% larger than the shipped items. Boxes that are too large for a particular item are more expensive than a box that is custom sized for the item due to the cost of the excess material used to make the larger box. When an item is packaged in an oversized box, filling material (e.g., Styrofoam, foam peanuts, paper, air pillows, etc.) is often placed in the box to prevent the item from moving inside the box and to prevent the box from caving in when pressure is applied (e.g., when boxes are taped closed or stacked). These filling materials further increase the cost associated with packing an item in an oversized box.
Customized sized boxes also reduce the shipping costs associated with shipping items compared to shipping the items in oversized boxes. A shipping vehicle filled with boxes that are 65% larger than the packaged items is much less cost efficient to operate than a shipping vehicle filled with boxes that are custom sized to fit the packaged items. In other words, a shipping vehicle filled with custom sized packages can carry a significantly larger number of packages, which can reduce the number of shipping vehicles required to ship the same number of items. Accordingly, in addition or as an alternative to calculating shipping prices based on the weight of a package, shipping prices are often affected by the size of the shipped package. Thus, reducing the size of an item's package can reduce the price of shipping the item. Even when shipping prices are not calculated based on the size of the packages (e.g., only on the weight of the packages), using custom sized packages can reduce the shipping costs because the smaller, custom sized packages will weigh less than oversized packages due to using less packaging and filling material.
A typical box template production system includes a converting part that cuts, scores, and/or creases sheet material to form a box template. The sheet material can be provided to the system from fanfolded bales. The fanfold storage of the sheet material provides unwanted fanfold folds to the box templates. These folds could be a problem when erecting the boxes, especially if tools for automatic erection are used.
It is an object of the present invention to provide an improved method and system for erecting boxes.
It is a further object of the invention to provide a method and a system for erecting boxes which is automated and flexible.
This is achieved in a method and a system for erecting boxes according to the independent claims.
In one aspect of the invention a method for erecting boxes from box templates of different sizes is provided. Said method comprises the steps of:
In another aspect of the invention a box erecting system for erecting boxes from box templates of different sizes is provided. Said box erecting system comprises:
Hereby, thanks to the size adjustable frame, box templates of different sizes can be erected by the same tool. Furthermore, by wrapping the box template around a frame a stability is provided to the wrapped box template. The box template is wrapped around the frame before a manufacturer's joint is sealed and hereby both the sealing of the manufacturer's joint and further folding for example of a bottom of the box can be provided efficiently. A frame inside the wrapped box template provides stability to the box irrespective of the robustness of each side wall. Hereby also box templates comprising folds from fanfold storage can be erected with less manual steps required.
A further object of the invention is to provide an improved method and a system for producing boxes.
This is achieved by a method for producing boxes from sheet material, said method comprising the steps of:
This is also achieved by a box production system comprising:
Hereby boxes can be produced efficiently in different sizes. An automatic or partly automatic erection of the boxes can be provided close to a box template production system.
In one embodiment of the invention the method further comprises a step of sealing a manufacturer's joint of the box template and/or folding and possibly sealing a bottom of the box template before separating the frame from the box template. Hereby the stability from the frame is utilized also for these steps.
In one embodiment of the invention the step of folding a bottom of the box template comprises pushing two second opposing bottom flaps of the box template outwards from each other by at least two extendable pushing arms connected to the frame at least during an initial part of a folding of two first opposing bottom flaps of the box template for forming a bottom of the box and retracting said extendable pushing arms before folding said two second opposing bottom flaps for forming a bottom of the box. Hereby possible problems related to bottom flaps hindering each other from correct folding can be dealt with. This may be a problem especially when thin knife cutting is used for cutting the box templates instead of punching.
In one embodiment of the invention said step of wrapping comprises:
In one embodiment of the invention the step of attaching the box template to the frame comprises attaching a first end of the box template to one of four corner posts provided in the frame. Hereby in one embodiment of the invention the adjustable parts of the frame comprises four corner posts and the control system is configured for controlling the position of said corner posts for different box sizes to be erected. Furthermore, in one embodiment of the invention at least one of the corner posts comprises an attachment device to which a first end of a box template can be attached during wrapping of the box template around the frame.
In one embodiment of the invention the controlling of the position of the frame comprises rotating the frame for wrapping the box template around the frame.
In one embodiment of the invention the step of sealing the manufacturer's joint comprising providing glue to a part of the box template which will be a part of the manufacturer's joint before the box template has been completely wrapped around the frame and thereafter complete the wrapping of the box template around the frame such that the manufacturer's joint is sealed. In one embodiment of the invention the step of sealing the manufacturer's joint further comprises controlling the position of the frame by a control system connected to the frame such that the box template is passing a sealing device before the box template is completely wrapped around the frame, said sealing device being connected to and controlled by the control system to eject glue to the box template for sealing the manufacturer's joint when the box template is passing.
In one embodiment of the invention the step of wrapping the box template around the frame comprises positioning a distant end of the frame in line with bottom flap creases of the box template such that a bottom can be folded while keeping the frame inside the wrapped box template.
According to the invention a box erecting system and a method for erecting boxes from box templates of different sizes are provided. Referring to all the embodiments of the invention and all the drawings the method comprises in its broadest sense the steps of:
Likewise, in its broadest sense the box erecting system 1; 101 according to the invention comprises:
The method and system according to the invention can be applied for different types of boxes, for example a so called Regular Slotted Container, RSC, also called Fefco 201 or American box or a Half Slotted Container HSC, also called Fefco 200.
In this embodiment of the invention the control system 11 is configured for controlling the position of the frame 5 for wrapping the box template 3 around the frame 5. The control system 11 can control the attaching device 19 provided to at least one of the corner posts 7 to attach to a first end 23 of a box template 3 to be erected. The control system 11 is further in this embodiment configured to both rotate the frame 5 for wrapping the box template 3 around the frame 5 and transfer the frame along a box template extension. In the
In all the embodiments described above in relation to
Furthermore, in this embodiment it can be seen that the control system 11 is configured for providing the frame 5 to the box template 3 with a distal end 25 of the frame 5 in line with bottom flap creases 27 of the box template 3 such that a bottom can be folded while keeping the frame 5 inside the wrapped box template.
In this embodiment of the invention the control system 11 is configured for controlling the position and orientation of the frame 5 for wrapping the box template 3 around the frame 5. The control system 11 can control the attaching device 19 provided to at least one of the corner posts 7 to attach to a first end 23 of a box template 3 to be erected. The control system 11 is further in this embodiment configured to rotate the frame 5 for wrapping the box template 3 around the frame 5. In this embodiment the frame 5 is both rotated and transferred along a box template extension as described above in relation to
The step of sealing the manufacturer's joint comprises providing glue to a part of the box template which will be a part of the manufacturer's joint before the box template has been completely wrapped around the frame and thereafter complete the wrapping of the box template around the frame such that the manufacturer's joint is sealed. The movement of the frame 5 together with the almost wrapped box template 3 such that the manufacturer's joint passes in front of the sealing device 15 is shown in
The control system 11 is further configured for retracting said extendable pushing arms 33 such that they do not protrude outside the frame 5 when the major flaps (second opposing bottom flaps) 29 are to be folded for forming a bottom of the box. The major flaps can be folded by any kind of folding device (a second part of the bottom folding station 31, not shown) suitably connected to and controlled by the control system 11.
After the bottom has been folded the bottom can optionally also be sealed before the box template is separated from the frame 105. Sealing the bottom can be for example providing a tape by the robot arm.
In all the embodiments described above and illustrated in the drawings it is illustrated that the box template is provided in a horizontal direction onto a horizontal surface before wrapping around the frame. However, it is not necessary to provide the box template onto a horizontal surface before the step of wrapping it around the frame. The box template could be provided in any angle possibly onto a surface having any suitable angle. The box template could also be hanging in a vertical direction when the box template is wrapped around the frame. One end of the box template could be attached to something and the box template could be hanging from this attachment point. Possibly the box template could be hanging out from a box template production system. The frame could then be controlled by the control system to wrap the box template around the frame in the same way as described above. Yet another example of alternative orientation of the box template is that the box template can be tilted on its side to any angle during the wrapping around the frame. Furthermore the box template need not be provided straight or planar during the wrapping procedure around the frame.
According to another aspect of the invention a method for producing boxes from sheet material is provided. The sheet material can be for example cardboard or corrugated board. The method comprises the steps of:
The method can further comprise an initial step of providing the sheet material to a box template production system from bales of fanfolded sheet material. When the box templates are produced from fanfolded material, such as for example fanfolded corrugated board, folds will be provided in the box templates also at other positions than intended, here called fanfold folds. These fanfold folds can be problematic to handle when erecting the boxes because the box walls may not behave as walls without such fanfold folds. They may fold along a fanfold fold rather than along intended crease lines. Ensuring corner folding in intended positions is crucial to ensure the further process steps, for example bottom flap folding. The use of the frame and the method of wrapping the box templates around the frame for erecting the boxes will be especially suitable for and improve erection processes of box templates comprising fanfold folds, i.e. box templates provided in different sizes on demand from fanfolded sheet material. Such a fanfold fold 140 is shown in the box template 103 which is erected by the box erecting system 101 shown in
According to another aspect of the invention a box production system is provided comprising:
In one embodiment of the invention said at least one inlet is configured for receiving said sheet material from bales of fanfolded sheet material as described above.
The control system 11; 111 of the box erecting system comprises further a processor and a computer program which when run on the processor causes the control system to perform the method for erecting boxes as described above.
The invention comprises further a computer program comprising computer readable code which, when run on a processor in a control system 11; 111 of a box erecting system according to the invention causes the control system to perform the box erecting method of the invention as described above.
Number | Date | Country | Kind |
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1750247-7 | Mar 2017 | SE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/US2018/020928 | 3/5/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/165028 | 9/13/2018 | WO | A |
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Number | Date | Country | |
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20190389611 A1 | Dec 2019 | US |