This invention relates to containers and more particularly to containers of the type including a rigid pallet and a tubular sleeve upstanding from the pallet.
Pallet and sleeve containers are in common usage and may be used for storing either bulk material or discreet free standing articles. In either case it is often necessary or desirable to stack a plurality of loaded containers. The extreme weight imposed in the stack, particularly on lower containers in the stack, makes it necessary to insure that the sleeves, especially of the lower containers, are not damaged by the extreme compressive loading in the stack.
One arrangement to prevent sleeve damage in a container stack has been to provide a rigid plastic lid to fit over the top edge of each sleeve in the stack so that the sleeves of successive containers in the stack remain in alignment and the compressive loading is transferred to the support surface for the stack. In scenarios where a lid is otherwise necessary to protect the container contents the use of the lid does not impose any penalty. However, where a lid is not necessary to protect the contents the need for a lid to allow stacking of the containers complicates the container construction, complicates the container inventory requirements, and imposes a significant cost penalty.
This invention is directed to an improved container of the type including a pallet and a sleeve upstanding from the pallet.
More particularly this invention is directed to a pallet and sleeve container that may be utilized in a stack of containers without need for a lid over the top edge of the sleeve.
The invention relates to a pallet having a platform portion, adapted to receive the lower edge of a tubular sleeve to form a container, and a plurality of peripherally spaced legs downstanding from the platform portion and each including a bottom.
According to the invention, the bottom of each leg includes an outboard upper level portion sized to seat a section of an upper edge of a lower tubular sleeve and an inboard lower level portion sized to fit within the upper edge of the lower sleeve. With this arrangement, with the upper sleeve positioned on the platform portion to form the container the pallet may be seated on the lower sleeve with the outboard upper level portions of the bottoms of the pallet legs seated on sections of the upper edge of the lower sleeve and the inboard lower level portions of the pallet bottoms positioned snugly within the upper edge of the lower sleeve to maintain the sleeves of successive containers in a stack in alignment.
According to a further feature of the invention, each sleeve comprises a composite sleeve assembly including inner and outer telescopically arranged sleeve members and each sleeve member comprises a multi-ply corrugated cardboard structure. This arrangement enhances the ability of the sleeve to resist distortion in a stacked environment.
According to a further feature of the invention, each leg is hollow and includes a bottom wall defining the bottom of the leg; the outboard upper level portion of each leg bottom comprises an outboard bottom wall upper level portion having upper and lower faces; the lower level portion of each leg bottom comprises an inboard bottom wall lower level portion; the lower edge of the upper sleeve is seated on the upper faces of the outboard bottom wall upper level portions; and the upper edge of the lower sleeve is seated on the lower faces of the outboard bottom wall upper level portions. This arrangement provides a ready and efficient means of seating the upper and lower sleeves in a stacked configuration while maintaining the sleeves of successive containers in a stack in alignment.
According to a further feature of the invention, the lower face of the pallet is configured to define tunnels between the pallet legs and the lower edge of the upstanding sleeve is selectively cut away to define the lower edge seat sections and to further define raised lower edge sections interconnecting the seat sections and spanning the tunnels of the pallet. This arrangement allows the downward compressive forces applied to stacked containers to be transferred by the sleeve substantially directly to the supporting surface thereby minimizing deformation of peripheral portions of the base pallet.
According to a further feature of the invention, the pallet includes corner legs; the upper and lower faces of the outboard upper level bottom wall portions of each corner leg have an L-shaped configuration; the lower edge of the upstanding sleeve is configured to define L-shaped corner seat sections conforming to the configuration of the upper face of the outboard upper level bottom wall portion of the corner leg; and the upper edge of the lower container sleeve is configured to define L-shaped corner portions conforming to the configuration of the lower face of the outboard upper level bottom wall portions of the comer legs. This arrangement maximizes the seating support for the upper and lower sleeves and firmly supports the upper edge of the lower sleeve throughout the entire periphery of the sleeve to maintain sleeve alignment in stacked containers.
Other applications of the present invention will become apparent to those skilled in the art when the following description of the best mode contemplated for practicing the invention is read in conjunction with the accompanying drawings.
The description herein makes reference to the accompanying drawings wherein like reference numerals refer to like parts throughout the several views, and wherein:
The container of the invention, broadly considered, includes a pallet 10 and a sleeve 12. Pallet 10 is formed of a rigid plastic material and preferably employs a twin sheet construction including two sheets 14 and 16 of organic polymeric material such as polyethylene which are vacuum formed and fused or knitted together at various points to add structural rigidity. Pallet 10 is generally planar and includes a planar platform structure 18 defining a flat upper load face 20 and a plurality of hollow legs extending downwardly from platform structure 18 and opening in upper face 20. As shown, corner legs 22 are provided at each corner of the pallet, intermediate legs 24 are provided at an intermediate location along each side of the pallet, and a central leg 26 is provided centrally of the pallet.
Legs 22, 24 and 26 will be seen to cooperate to define tunnels or indentations 28 extending transversely and longitudinally across the lower face 30 of the pallet to provide relieved access areas for receiving the forks of a fork lift truck or the like. As a consequence, the container may be lifted and moved by conventional warehousing equipment.
Upper vacuum formed sheet 14 will be seen to form the upper face 20 of the platform structure; lower vacuum formed sheet 16 will be seen to form the lower face 30 of the platform structure; and downwardly extending protrusions of the upper and lower sheets will be seen to be knitted together to form the legs 22, 24 and 26 of the pallet. Upper sheet 14 further includes a plurality of circumferentially spaced upwardly opening U-shaped edge portions 14a positioned over each tunnel 28 and coacting to define a plurality of upwardly opening grooves 32 spaced circumferentially around the periphery of the pallet.
Sheets 14 and 16 further coact to define a bottom wall for each leg. Specifically, corner legs 22 include a bottom wall 22a; intermediately legs 24 include a bottom wall 24a; and center leg 23 includes a bottom wall 26a. Bottom wall 26a of center leg 26 is planar but the bottom walls of the remaining legs are stepped to define upper level outboard portions and lower level inboard portions.
Specifically, the bottom wall 22a of each corner leg 22 includes an outboard upper level portion 22b and an inboard lower level portion 22c joined by a step or shoulder 22d, and the bottom wall 24a of each intermediate leg 24 includes an outboard upper level portion 24b and an inboard lower level portion 24c joined by a step or shoulder 24d. The outboard portions 24b of the intermediate legs will be seen to have a linear configuration and the outboard portions 22b of the corner legs will be seen to have an L-shaped configuration. Sheets 14 and 16 also include outer upwardly extending portions 14b, 16a fused together to form a continuous rim 34 extending around the periphery of the pallet.
Sleeve assembly 12 is formed of a pair of tubular sleeve members 36 and 38 which are telescopically arranged and suitably secured together, for example, by a suitable adhesive. Each sleeve member is preferably formed of three-ply corrugated material such as is commercially available from Tri-wall Containers, Inc.
Each sleeve member 36, 38 is formed in known manner of a plurality of flat primary cardboard sheets interspersed with an adhesive secured to a plurality of corrugated cardboard sheets with the flat primary sheets disposed on the inner and outer surfaces respectively of each member so as to form a multi-layer sandwich construction.
Sleeve assembly 12 is configured along its lower edge 12a to match the configuration of pallet 10. Specifically, a plurality of cut outs 12b are provided in circumferentially spaced fashion around the lower peripheral edge of the sleeve assembly to define a plurality of legs including corner legs 12c and intermediate legs 12d configured to fit respectively within the hollow legs 22 and 24 of the pallet with the upper edges 12e at the tops of the cutouts positioned in the grooves 32 defined by the pallet. The sections 12f of the lower edge defined by the legs 12c will be seen to have an L-shaped configuration conforming generally to the L-shaped configuration of the outboard upper level portions 22b of the corner legs 22 and the planar lower edges 12g of the legs 12d will be seen to have a linear configuration conforming to the linear configuration of the outboard upper level portion 24a of the intermediate pallet legs 24.
With sleeve assembly 12 positioned in upstanding fashion on pallet 10, upper cut out edges 12e are positioned in grooves 32; the L-shaped lower edge sections 12f of the corner sleeve assembly legs 12c are seated on the upper faces 22e of the outboard upper level portions 22b of the corner pallet legs; and the linear lower edge sections 12g of the lower edge of the sleeve assembly are seated on the upper face 24e of the outboard upper level portions 24b of the intermediate pallet legs.
When the invention containers are positioned in a stacked configuration as seen in
Specifically, the L-shaped lower face 22f of each pallet corner leg is seated on an L-shaped corner section of the upper edge 40 of the lower sleeve assembly; the linear lower faces 24f of the outboard upper level portions of the intermediate legs are seated on circumferentially spaced linear sections of the upper edge 40 of the lower pallet assembly; and the inboard lower level portions 22c, 24c of the corner and intermediate legs are positioned snugly within the upper edge 40 of the lower sleeve assembly to maintain the sleeves in alignment. It will be understood that the inboard lower level leg portions are dimensioned such that the rectangular outer periphery defined by the combined inboard lower level leg portions corresponds to the inner peripheral configuration of the upper edge of the sleeve assembly so that the inboard lower level portions in combination firmly locate the upper edge of the lower sleeve to maintain sleeve alignment in the stack even when encountering the heavy compressive loading experienced in a stack of loaded containers.
It will be understood that suitable structure may be provided on the sleeves and pallets to releasably secure the sleeves to the pallets. For example, and as shown in U.S. Pat. No. 4,989,731 incorporated herein by reference, sliding latches may be provided at spaced locations around the periphery of each pallet for coaction with slots in the lower edge portion of the associated sleeve.
The invention will be seen to provide a pallet and sleeve container wherein the container may be utilized in a stack of containers without the need to provide an upper lid to maintain alignment of successive sleeves in the stack. It will further be seen that the integrity of a stack of containers is further enhanced by the distortion resistant capability provided by the compound wall composite sleeve assembly including inner and outer telescopically arranged sleeve members each having a multi-ply corrugated cardboard construction.
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiments but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under the law.
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Number | Date | Country | |
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20040118742 A1 | Jun 2004 | US |