The present disclosure relates to blanks such as used in forming containers, and more particularly to nesting techniques such as used in arranging multiple blanks on a work piece sheet or web of stock material.
A variety of devices and methods are known in the art for forming packaging blanks from sheets or webs of stock material such as paper board. A variety of packages can be produced from such blanks. During the manufacture of packaging blanks from sheet or web materials, portions of the sheet or web that are not ultimately part of the finished blanks constitute scrap.
Conventional techniques in manufacturing packaging blanks have been considered satisfactory. However, there is an ongoing need for improved methods and devices, such as for reducing the amount of scrap produced during the manufacture of packaging blanks. The present disclosure provides a solution for this need.
A method of forming a packaging blank includes stripping away a portion of a stock material to create an offset void and blanking the stock material into a plurality of packaging blanks. Blanking includes separating the stock material along a plurality of severance lines dividing between the blanks, wherein at least two of the severance lines are separated from one another by the offset void.
Blanking can include separating the stock material along a plurality of severance lines dividing the blanks from one another along a blanking grid, wherein the blanking grid is arranged in a nested sheet-fed layout. A first one of the severance lines can meet the offset void along a first direction, and a second severance line can be spaced apart from the first severance line, wherein the second severance line meets the offset void along the first direction.
Stripping away a portion of the stock material can include forming a plurality of offset voids, wherein blanking includes separating the stock material along a plurality of severance lines dividing between adjacent nested blanks along a blanking grid, and wherein all of the severance lines extend in a machine direction and/or in a direction perpendicular to the machine direction. It is also contemplated that stripping away a portion of the stock material can include forming a plurality of offset voids, wherein blanking includes separating the stock material along a plurality of severance lines dividing between the blanks along a blanking grid, wherein none of the severance lines are cut to meet at an angle relative to one another without an intervening offset void.
Stripping away a portion of the stock material can include forming an offset void between a riser panel of a first one of the blanks and a second one of the blanks, wherein blanking includes separating the stock material along two severance lines dividing between the first and second blanks, and wherein the two severance lines are spaced apart by the offset void between the riser panel and the second one of the blanks. The two severance lines separating the riser panel and the second one of the blanks can be straight and co-linear with one another. It is also contemplated that stripping away a portion of the stock material can include forming an offset void between two respective bottom panels of two respective blanks, wherein blanking includes separating the stock material along two severance lines, each of the two severance lines respectively dividing between a bottom panel of one of the respective blanks and the other respective blank.
An array of packaging blanks for containers includes a sheet of stock material with nicked cuts defining a plurality of blanks nested in a sheet-fed layout. The blanks are divided from one another at a plurality of severance lines.
In certain embodiments, none of the severance lines meets another severance line at an angle. At least a first one of the severance lines can meet an offset void in the stock material along a first direction, and a second one of the severance lines that is spaced apart from the first one of the severance lines can also meet the offset void along the first direction. All of the severance lines can extend in a machine direction and/or in a direction perpendicular to the machine direction.
Each of the blanks can include a riser panel, wherein two severance lines separate between the riser panel of one of the blanks and another one of the blanks, wherein there is an offset void also separating between the riser panel of the one blank and the other blank that spaces the two severance lines apart from one another. The two severance lines separated across the offset void can be straight and co-linear with one another.
In another aspect, there can be a severance line separating between a bottom panel of a first one of the blanks and a second one of the blanks, and another severance line separating between the first one of the two blanks and a bottom panel of the second one of the two blanks. The severance lines separating between bottom panels and blanks are spaced apart across an offset void offsetting the two bottom panels. This offset void can define a sigmoid shape, for example.
There can be three severance lines separating two respective blanks wherein the three severance lines are angled relative to one another, wherein a middle one of the three severance lines is separated from each of the other two severance lines by a respective offset void in the stock material. The blanks can be connected to one another by nicks along severance lines, wherein at least some of the severance lines are spaced apart from one another across offset voids offsetting between respective blanks, wherein the offset voids are ⅜ inch (0.95 cm) wide.
A blanking die for striking packaging blanks from stock material includes a blanking frame and a blanking grid attached to the blanking frame for separating blanks from one another. The blanking grid conforms to severance lines dividing between a plurality of blanks nested in a sheet-fed layout.
A cutting die for cutting packaging blanks from stock material includes a cutting die base and a plurality of cutting blades mounted to the cutting die base. The cutting blades are arranged to cut an array of packaging blanks nested in a sheet-fed layout as described above. At least some of the cutting blades can define an offset void for cutting an offset void separating between two packaging blanks. The cutting die can include a cutting blade for cutting a first severance line that meets the offset void and another cutting blade for cutting a second severance line that meets the offset void wherein the blades for cutting the first and second severance lines are spaced apart by the cutting blades for cutting the offset void.
These and other features of the systems and methods of the subject disclosure will become more readily apparent to those skilled in the art from the following detailed description of the preferred embodiments taken in conjunction with the drawings.
So that those skilled in the art to which the subject disclosure appertains will readily understand how to make and use the devices and methods of the subject disclosure without undue experimentation, preferred embodiments thereof will be described in detail herein below with reference to certain figures, wherein:
Reference will now be made to the drawings wherein like reference numerals identify similar structural features or aspects of the subject disclosure. For purposes of explanation and illustration, and not limitation, a partial view of an exemplary embodiment of a blank in accordance with the disclosure is shown in
Packaging blanks can be formed from stock material, e.g., sheets of paperboard, by cutting the stock material to form an array of packing blanks, stripping out voids or holes from the stock material and then using a blanking process to separate individual blanks in the stock material from one another. Graphic material can be printed on one or both sides of the stock material. Ultimately, the individual blanks can be formed into containers or packages with graphical print, for example.
Blank 100 is for a basket type package, e.g., for carrying a plurality of beverage bottles. Blank 100 includes a primary partition panel or medial panel 12, secondary partition panels or lateral partition panels 11, a heel panel or lower partition panel 13, end panels 14, side panels 15 or front/rear panels, end panels 16, a handle panel 17, a glue tab 18, a glue flap 19, a riser panel 20, a bottom panel 21, and a hand opening 23. The lower portion of
As described in greater detail below, blank 100 and the adjacent blanks are connected to one another by nicks along severance lines that are cut during a cutting process, and are then separated in a blanking process to separate each blank 100 from adjacent blanks formed from the same sheet of stock material. A pair of severance lines 26 separates between riser panel 20 and the adjacent blank on the right in
Referring now to
To facilitate the blanking process, offset voids 24 and 25 are cut and stripped out of sheet 102 prior to blanking. As can be seen in
Each of the offset voids 24 and 25 provides an offset width W between two adjacent blanks 100. Those skilled in the art will readily appreciate that width W can be varied from application, but can be ⅜ inch (0.95 cm) wide in paperboard applications, for example. This gap width, and the fact that none of the severance lines 26, 28, or 29 separating between blanks 100 meet each other at an angle, reduces or even eliminates tearing of blanks 100 during the blanking process, which would otherwise occur where two severance lines meet an angle. Offset voids 24 each have a main portion 34 that extends in the machine direction, and include opposed terminus portions 36 that are each angled obliquely relative to the respective main portion 34, to provide angles contours along the corresponding portions of each of the adjacent blanks 100. The main portion 34 is optional, and could be replaced with a severance line connecting between the two terminus portions 36, 36.
An advantage of the array 102 of blanks 100 shown in
With reference now to
With reference to
As can be seen by comparison of
Referring now to
Referring now to
Blanking 506 can include separating the stock material along a plurality of severance lines dividing the blanks from one another along a blanking grid, e.g., blanking grid 203. The blanking grid can be arranged in a nested sheet-fed layout as described above.
With reference now to
The methods and systems of the present disclosure, as described above and shown in the drawings, provide for nested blank configurations with superior properties including reduced scrap and reduced or eliminated risk of tearing during blanking. While the apparatus and methods of the subject disclosure have been shown and described with reference to preferred embodiments, those skilled in the art will readily appreciate that changes and/or modifications may be made thereto without departing from the scope of the subject disclosure.
Filing Document | Filing Date | Country | Kind |
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PCT/US16/21117 | 3/7/2016 | WO | 00 |
Number | Date | Country | |
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62129106 | Mar 2015 | US |