The present invention relates to shipping containers, and more particularly, to shipping containers having stacking tabs formed from a single blank.
In the shipping container art, there are many container designs that are manufactured for various end uses. One popular end use for a container is holding fresh fruits and produce during the transportation process (i.e., packing and shipping), and for displaying at the retail level. Usually when packing produce, such as tomatoes, peaches, mangos and the like, there is a typical size requirement in that the container volume is sized to hold a certain amount of product. There is also a strength requirement given the weight of the product packed and the shipping and handling requirements. Such containers are generally rectangular and have a variable height dimension ranging from three to twelve inches. Further, these containers are typically transported, stored, and displayed in a stacked configuration.
A well known single piece container design for holding produce is a single-piece tray type where a single piece of corrugated cardboard is cut and scored to form a flat blank. The blank has a bottom, two side walls hinged to the bottom and at least two end walls hinged to the bottom. To form the container, the walls of the blank are folded upwardly to be normal to the bottom and then connected to form the containment volume within the four walls. Variations are well known where top closure flaps are hinged to the top edges of the side walls, and for stacking strength, a second end wall can be hinged to the top edge of first end wall to then form a double layer of material thereby enhancing the stacking strength.
As was mentioned above, the tray-type containers are typically stacked on top of one another during shipping, storing, and displaying at the retail level. To that end, suitable stacking strength is one requirement of these types of containers so that the containers can be stacked as much as twenty containers high. One drawback with stacking containers into a unitized load is that the stacking strength is reduced if the containers are misaligned. To address this problem, stacking tabs and associated apertures have been added to the standard tray-type container to aid in the alignment of the stacked containers when stacked into a unitized load, while also maintaining the alignment of the containers during the transportation process. However, the current tray-type containers with stacking tabs only allow for stacking in a column style configuration (i.e. the longitudinal axis of each container are parallel with one another). Therefore, with the advent of stacking tabs, it has been the desire of the container industry to develop a tray type-container with stacking tabs that is stackable in the column configuration, as well as other stacking configurations, such as an interlocking configuration.
In accordance with aspects of the present invention, a single piece blank for forming a tray-type container having an inner cavity and at least one stacking tab extending upwardly from the top of the container is provided. The blank includes a bottom wall panel, and an end wall panel hingedly connected to the bottom wall panel by a first fold line. The blank also includes an outer side wall panel having an outer edge and hingedly connected to the bottom wall panel by a second fold line. An inner side wall panel is hingedly connected to the outer wall panel remote from the bottom wall panel by at least one bridge section such that when erected, the inner side wall panel is folded about the bridge section, thereby forming a stacking tab from the bridge section which extends outwardly away from the bottom panel. The blank further includes at least one first aperture positioned along the second fold line between the bottom panel and the outer side wall panel and adapted to receive a stacking tab of another container when stacked in a first configuration, and at least one second aperture spaced-apart from the first aperture and positioned along the second fold line between the bottom panel and the outer side wall panel. The second aperture is adapted to receive a stacking tab of another container when stacked in a second configuration, the second configuration being different than the first configuration.
In accordance with another aspect of the present invention, a container includes a bottom wall, and side walls that extend upwardly from the bottom wall. At least one stacking tab extends upwardly from each side wall. The container also includes end walls that extend upwardly from the bottom wall to form, along with the side walls, an inner cavity. At least one first aperture is formed at the intersection of each of the side walls and the bottom wall. The first apertures are adapted to receive a stacking tab of another container when stacked in a column configuration. The container further includes at least one second aperture formed at the intersection of each of the side walls and the bottom wall and spaced apart from the first apertures. The second apertures are adapted to receive a stacking tab of another container when stacked in the interlocking configuration. At least one third aperture is formed at the intersection of each of the end walls and the bottom wall. The third apertures are adapted to receive a stacking tab of another container when stacked in the interlocking configuration. The container further includes a plurality of spaced-apart fourth apertures formed in the bottom wall remote from the intersection of the side walls and the bottom wall. The fourth apertures are adapted to receive a stacking tab of another container when stacked in the interlocking configuration.
The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same become better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
The present invention will now be described with reference to the accompanying drawings where like numerals correspond to like elements. The present invention is directed to a tray-type container that utilizes stacking tabs on opposite side walls to create a modular stackable container. The container includes an arrangement of apertures, which are adapted to receive the stacking tabs of another similar container to provide for several different stacking configurations.
One suitable embodiment of a tray-type container, generally designated 10, constructed in accordance with the present invention is illustrated in FIG. 1. The tray-type container 10 includes a bottom wall 20, longitudinally-extending outer side walls 22, and laterally-extending end walls 24, the outer side walls 22 and the end walls 24 extending upwardly from the bottom wall 20 to form an inner cavity 26. As erected, the outer side walls 22 include a plurality of spaced-apart stacking tabs 28A-28D, and the bottom wall forms a plurality of spaced-apart apertures 60, 70, 80, 82, 86, and 88 for receiving the stacking tabs 28A-28D of like or similar containers. A plurality of tray-type containers 10 may be unitized in several stacked configurations utilizing the stacking tabs 28 and apertures 60, 70, 80, 82, 86, and 88. Typically, the plurality of unitized containers 10 are placed upon a shipping pallet or slip sheet, or placed within a shipping container to facilitate shipping by large carriers.
The tray-type container 10 shown in
With continued reference to
Referring now to
In accordance with one aspect of the present invention, stacking tabs 28A-28D are provided with the tray-type container 10 and may be suitable formed as described above. The stacking tabs 28A-28D are utilized to extend into a first set of apertures located in a similarly constructed tray-type container 10 when properly aligned longitudinally in a stacked configuration known as column stacking, as best shown in FIG. 4. Looking now to the intersection of the bottom panel 20A and the outer side wall panels 22A and 22B of
In accordance with another aspect of the present invention, the container 10 is suitable for cross stacking as shown best in FIG. 5. To permit stacking in this configuration, the container 10 includes additional apertures for receiving the stacking tabs of other like containers, which will now be described in detail. Looking back to the intersection of the bottom panel 20A and the outer side wall panels 22A and 22B of
Similar to fold lines 30A and 30B, the fold lines 32A and 32B are interrupted by sets of cut-out portions 80A-80D and 82A-82D. As shown in
The container 10 further includes a plurality of spaced-apart cut-out portions formed in the bottom panel 20A. In the embodiment shown, cut-out portions 86A-86D and 88A-88D are formed in the bottom panel 20A in substantial lateral alignment, while cut-out portions 86A and 88A, 86B and 88B, 86C and 88C, and 86D and 88D, are in longitudinal alignment with cut-out portions 80A and 82A, 80B and 82B, 80C and 82C, and 80D and 82D, respectively. The cut-out portions 86A-86D and 88A-88D are generally rectangular in shape and are suitably dimensioned to receive two adjacent stacking tabs of side by side containers.
To enhance the ability for the container 10 to be stacked one upon another, the side walls are constructed to tilt or lean inwardly into the cavity 26 of the container 10 when the container is assembled. Thus, the stacking tabs 28A-28D on the tilted side walls are in direct alignment with the apertures 60A-60D disposed in the bottom wall panel 20A. To achieve the tilting side walls, end panel facing edges 96A and 96B of the end flaps 34A and 34B, respectively, taper away from the end panels 24A and 24B while the outer edges 94A and 94B of the end flaps 50A and 50B, respectively, taper toward the end panels 24A and 24B. To accommodate the side walls slanting inwardly when erected, opposite edges of the end wall panels 24A and 24B are formed with notches 98A and 98B. Thus, when erected, the outer side wall panel 22A and 22B engage the notches 98A and 98B of the end wall panel 24A and 24B at fold lines 36A and 36B, while the edges 96A and 96B and 94A and 94B of the end flaps 34A and 34B and 50A and 50B, respectively, align with the fold lines 32A and 32B. Accordingly, the depth of the notches 98A and 98B determines the tilting angle of the side walls.
Referring now to
The inner side wall panel 40B is then folded inwardly 180° along fold lines 44B and 44D so that inner side wall panel 40B is juxtaposed against outer side wall panel 22B, causing the now folded end flaps 50 to be in an upright position. At the same time the inner side wall panels 40 are folded inwardly 180° along fold lines 44B and 44D so that inner side wall panel 40B is juxtaposed against outer side wall panel 22B, the stacking tabs 28B and 28D are formed from the bride sections 42B and 42D, as best shown in FIG. 3C.
Next, the double-ply panel formed by the inner side wall and the outer side wall is folded upright 90° about fold line 30B so that the fold lines 36B abut against the notches 98B (
Once the container is erected from the blank 18 as described above, multiple assembled containers may be stacked in a longitudinal alignment known as column stacking, as shown best in
To begin forming the second layer shown best in
Continuing to form the second layer, a second container 810 is placed in end-to-end relation with respect to container 710. It will be appreciated that the dimensions of the containers are such that when placed end-to-end, the outward facing end wall of container 810 is coplanar with the outward facing side wall of container 410. When the container 810 is lowered into the position shown, the stacking tab 428B of container 410 extends upwardly into cut-out portion 882C of container 810, while adjacent stacking tabs 328B and 428A of containers 310 and 410, respectively, extend upwardly into cut-out portion 886C of container 810.
Next, three containers 910, 1010, and 1110 are placed in a side-by-side fashion in the remaining space of the second layer, beginning with container 910. The container 910 is placed on top of containers 510 and 210 in overlapping fashion such that one end wall of the container 910 abuts against the side wall of container 710, while the other end wall of container 910 is coplanar with the outer side wall of container 510. When the container 910 is lowered into the position shown, the stacking tab 228C of container 210 extends upwardly into cut-out portion 970A of container 910. Additionally, stacking tabs 528A and 528B of container 510 extend upwardly into cut-out portion 982B and 986B, respectively, and stacking tab 228D of containers 210 extends upwardly into cut-out portion 970B of container 910.
Once container 910 is in place, container 1010 is be lowered into the position shown such that one end wall of the container 1010 abuts against the side walls of containers 710 and 810, while the other end wall of container 1010 is coplanar with the outer side walls of containers 510 and 610. In this position, the stacking tabs 328C and 328D of container 310 extend upwardly into cut-out portion 1070A and 1070B of container 1010, respectively. Additionally, stacking tabs 528C and 528D of container 510 extend upwardly into cut-out portions 1082A and 1086B, respectively, and stacking tabs 628A and 628B of container 610 extend upwardly into cut-out portions 1082D and 1086D of container 1010, respectively.
At this point, the final container 1110 of the second layer may be lowered into place as shown. The container 1110 is placed on top of containers 610 and 410 in overlapping fashion such that one end wall of the container 1110 abuts against the side wall of container 810, while the other end wall of container 1110 is coplanar with the outer side wall of container 610. When the container 1110 is lowered into the position shown, the stacking tab 628C and stacking tab 628D of container 610 extends upwardly into cut-out portions 1182C and 1186C of container 1110, respectively. Additionally, stacking tabs 428C and 428D of container 410 extend upwardly into cut-out portion 1170A and 1170B, respectively. If a third layer is desired, the arrangement of the first layer is repeated on top of the second layer.
While the preferred embodiment of the invention has been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention. For example, the blank may also include other features specified by the customer, such as hand holds, vent holes and the like. Additionally, while the blank described above and illustrated herein depict the end wall 24 sandwiched between the end flaps 34A and 34B of the outer side walls 22 and the end flaps 50A and 50B of the inner side walls 40A and 40B, it will be readily evident to those skilled in the art that the containers blank may be slightly modified so as to allow the bottom end flaps 34A and 34B and 50A and 50B to be attached to either the inner or outer surface of the end walls 24. Further, it will be appreciated that the stacking tabs may be formed by double-ply end wall panels, which can be formed substantially identical as the side wall panels described above. In this embodiment, the location of the plurality of cut-outs that accept the end wall stacking tabs would change accordingly.
This application is a continuation of prior application Ser. No. 10/068,679, filed Feb. 5, 2002 now abandoned, priority from the filing date of which is hereby claimed under 35 U.S.C. §120. Prior application Ser. No. 10/068,679 is hereby incorporated by reference.
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Number | Date | Country | |
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20040173669 A1 | Sep 2004 | US |
Number | Date | Country | |
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Parent | 10068679 | Feb 2002 | US |
Child | 10796944 | US |