FIELD OF THE INVENTION
The invention described herein is in the field of shipping containers of the type having molded plastic top and bottom members removably attached to and enclosing the open ends of a foldable sleeve that forms the sidewalls of a container. Passive mechanisms; i.e., mechanisms that do not require direct operator interaction, are used to secure and remove the top and bottom members to and from the sleeve.
BACKGROUND OF THE INVENTION
U.S. Pat. No. Re. 35,875, issued Aug. 25, 1998 to Lyle H. Shuert of Bloomfield Hills, Mich., discloses a container comprising the combination of a four-sided foldable sleeve and a pair of identical molded plastic members, shaped as forklift compatible pallets, attached to the top and bottom edges of the sleeve respectively, by means of hand operated slide latches on the pallets and slots in the sleeve walls. The slide latches include elongate plastic members movable by direct hand action between extended and retracted positions relative to the sleeve slots located near the top and bottom edges. When the latch members are extended, they fit into the slots to hold the sleeve and pallets together. This may supplement or eliminate banding.
SUMMARY OF THE DISCLOSURE
As described herein, a three-part container generally of the type described in the Reissue patent is improved by the substitution of a passive locking arrangement for the slide lock latches. By “passive,” we mean that the locking arrangement allows the sleeve sidewalls to be securely attached to top and bottom molded plastic members by simple insertion of the sleeve edges and without the necessity for moving components of latch devices by direct hand action. The bottom member can be a pallet with legs arranged to be compatible with a forklift truck for handling purposes. The top member may be of a different configuration to simply act as a cover but may, if desired, be identical to the bottom pallet.
As illustrated, the bottom pallet and the top cover are each constructed in a four-sided configuration with a peripheral rim forming the outside wall of a structure that receives the edges of a four-sided sleeve therein. The four-sided configuration is merely illustrative as other shapes are possible. In the first of two disclosed embodiments, fixed lock tabs are integrally formed on the inside wall of the peripheral rim of the pallet and cover so as to extend inwardly in locations chosen to fit into slots formed such as by die cutting in the sidewalls of the sleeve near the top and bottom edges. The pallet is formed with a groove to receive the bottom edge of the sleeve.
Relief areas or depressions may be molded into the interior deck of the pallet immediately across from the fixed tabs to allow some degree of inward flexing of the sleeve side walls during insertion and removal thereof relative to the pallet and cover grooves. Alternatively, the groove may be made marginally wider in the area of the tabs. The cover rim may be flexible enough to allow for sleeve entry without relief areas.
The bottom pallet is preferably configured with nine feet which are integral with the pallet deck and rim, one foot at the middle of each side, and the ninth foot in the center of the deck. This makes the pallet compatible with forklift trucks and provides four-way entry.
In a second embodiment herein disclosed, the locations of the tabs and slots are reversed; i.e., the lock tabs are located on the sleeve and the “slots” or slot equivalents are in the pallet and cover and may be formed as apertures. The tabs are formed on molded plastic clips attached to the sleeve sidewalls and these tabs fit by cam action into the apertures in the peripheral walls of the pallet and cover when the sleeve is fully inserted. Full insertion of the sleeve means the inner sleeve edge “bottoms out” on the pallet groove floor and the cover tap when inserted.
In all disclosed embodiments, the tabs are shaped with sloped top and bottom surfaces to act as a cam on edges of the sleeve and/or a sleeve slot facilitating both insertion and removal. In addition, the tabs are wedge-shaped with a rounded or elliptical outside edge.
The cover and pallet may be of single sheet or hollow twin-sheet construction. The cover preferably has bosses formed in the inner deck surface for rigidity.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of an assembled container comprising a pallet bottom, a cover, and a sleeve with cutouts in two sides;
FIG. 2 is a perspective view of the pallet bottom showing the legs, peripheral rim sleeve-receiving groove and locking tabs;
FIG. 2A is a detail of a locking tab formed on the inside surface of the pallet rim and extending inwardly toward a relief area;
FIG. 3 is a perspective view of a sleeve attached to a bottom pallet and with top cover removed;
FIG. 4 is a top plan view of a pallet with a sleeve inserted and locked into a peripheral groove;
FIG. 4A is a partial sectional view of a pallet with a section through an inserted sleeve;
FIG. 5 is a perspective view of a container with the sleeve separated from the pallet but with an installed molded plastic cover;
FIG. 6 is similar to FIG. 4 but with illustrative dimensions;
FIG. 7 shows a locking tab with illustrative dimensions;
FIG. 8 is a plan view of a cover;
FIG. 9 is a partial view in sections of a twin sheet cover with a locking tab inserted into a sleeve slot;
FIG. 10 is a sectional view of a single sheet lock tab clip for attachment to a sleeve top or bottom edge;
FIG. 11 is a perspective view of a twin-sheet cover inner side;
FIG. 11A is a detail of a locking tab in the cover;
FIG. 12 is a sectional view of a foldable lock tab clip for attachment to a sleeve edge;
FIG. 13 is a perspective view of a foldable sleeve clip;
FIG. 14 is a sectional view of a folded tab clip;
FIGS. 15-17 are views of a foldable lock tab clip for attachment to a sleeve edge;
FIG. 18 shows clips attached to a sleeve bottom edge;
FIG. 19 shows a second clip configuration;
FIG. 20 shows the clip of FIG. 19 in a partially folded condition with the locking tab on the exterior of the front face;
FIG. 21 is a sectional view of the clip of FIGS. 19 and 20 attached to a container sleeve;
FIG. 22 is a perspective view of the top surface of a pallet adapted to receive the sleeve with clip tabs;
FIG. 23 is a detail of the clip-tab-receiving aperture in the pallet;
FIG. 24 is a perspective view of the complete container with the sleeve separated from the pallet and the cover fully installed.
FIG. 25 is a perspective view of an accordion folding sleeve; and
FIG. 26 is a diagrammatic view of the folding sleeve.
DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENTS
Referring to FIG. 1, an assembled container 10 is shown. The container 10, in all disclosed embodiments, comprises three principal parts, a molded plastic bottom pallet 12 compatible with forklift handling, a foldable four-sided sleeve 14 of corrugated organic or composite material, and a molded plastic top cover 16. The pallet 12 and cover 16 can be vacuum-assist thermoformed of polyethylene or other suitable polymer while the sleeve 14 can be constructed of various materials such as corrugated paperboard, preferably treated for waterproofing, or a composite material with fold joints 20 at the four vertical corners between side panels. Panels are approximately 48 inches in width and 60 inches in height. The material thickness, on the order of 9 mm to 11 mm, is chosen such that the side panels exhibit a degree of flexibility and may be die cut to form slots 22 and 24 adjacent the top and bottom edges, respectively, as shown in FIGS. 3 and 5. Additional slots or openings 25 may be formed in the sleeve 14 for handling purposes as desired and/or to receive “clips” as described with respect to FIGS. 12-26.
Detailed Description of the First Embodiment
The first embodiment is shown in FIGS. 2, 3, 4, 4A, 5-11A and corresponds essentially to what is shown in FIG. 1 as far as the three major components are concerned. It includes passive locks comprising tabs 26 molded into the pallet 12 and cover 16 in locations that correspond to the locations of slots 24 that are cut into the side walls of the sleeve 14. As a result, the tabs 26 fit into the slots 24 to secure the sleeve 14 to the pallet 12 simply by pushing the properly configured sleeve bottom edge into a groove 28 formed around the periphery of the pallet 12 inside of a surrounding rim 30 as shown in FIG. 4A. A similar arrangement is provided at the top of the combination to secure the cover 16 to the top edge of the sleeve 14 as shown in FIG. 9. No “groove” is required in the cover; i.e., the sleeve edge simply fits inside of the cover rim 40. This includes the slots 22 in the sides of the sleeve and tabs 36 molded into the interior wall of the rim 40 extending around the outside of the cover 16 as shown in FIGS. 7, 9. The cover shown in FIGS. 11 and 11A has a wide groove 38 to allow for flexing of the sleeve during insertion and removal. Here, tabs 36 are formed on all four sides of the cover and slots are formed on all four sides of the sleeve. However, an alternative design can have slots and tabs on only two sides if a less secure lock is tolerable or necessitated by cutouts in the sleeve walls. Again, the locations of the tabs 36 and slots 22 are chosen to coincide so the tabs fit into the slots when the cover 16 is pushed down on the top of the sleeve edge.
Looking specifically to FIGS. 2 and 2A, the bottom pallet 12 can be vacuum thermoformed, preferably out of single sheet of material, to produce a central general flat deck 42, tapered feet 44 in each of the four corners of the pallet bottom 12, a tapered foot 46 midway in each of the four sides, and single center foot 48. All of the feet are thermoformed using a die and vacuum to draw the polymeric sheet material into cavities in the die after the material has been heated to make it flow more readily. The feet are provided with vertical side grooves for additional strength and rigidity as will be apparent to persons of ordinary skill in the vacuum thermoforming art.
The peripheral rim 30 runs continuously around all four sides of the pallet to define the continuous peripheral groove 28 which is dimensioned and configured to receive therein the entire bottom edge of the sleeve 14 after the sleeve has been unfolded and reconfigured as a four-sided body. The depth of the groove 28 is such that lock tabs 26 enter slots 24 in the sleeve 14 when the bottom edges of the sleeve engage the bottom of the groove as shown in FIG. 6. This is important in that it is desirable, especially when loaded containers are stacked, to transfer stacking loads down through the sleeve and the pallet feet to the floor on which the bottom pallet sits as well to avoid stress on the sleeve material around the slots that could lead to tearing. As shown in FIG. 9, the top edge of the sleeve also must “bottom out” on the cover 16 before a lock is activated.
As shown in FIGS. 2, 6, and 7, each of the locking tabs 26 and 36 is wedge-shaped and has a semi-circular outside edge. The tabs 26 and 36 also have sloped top and bottom surfaces 50 and 52 to act as cams during insertion and removal of the sleeve into the groove and, in particular, while the locking tabs encounter the bottom edge of the sleeve (during insertion) and the bottom edge of the slots 24 during removal.
To aid in the insertion and removal steps, a box-shaped relief or depression 54 is formed in the pallet surface 42 directly opposite each of the locking tabs 24 in the groove 28 as shown in FIGS. 2 and 2A. The floor of each relief 54 coincides with the bottom of the groove 28 in FIG. 4A to provide space into which the wall of the sleeve 14 can flex during insertion and removal steps. The groove 28 can alternatively be made slightly wider in the vicinity of the tabs.
The Cover
The embodiment here described further comprises a molded plastic cover 16 which, to a great extent, mirrors the bottom pallet 12 with the exception that the cover in this example is less deep, has no feet and may not have an actual “groove” for the top edge of the sleeve; i.e., the sleeve simply fits inside of the cover rim 40. As shown in FIGS. 9-11A, the cover 16 is formed with a continuous groove 56 inside of a peripheral rim 40 to receive the top edge of the sleeve 14 for assembly purposes.
As shown in FIGS. 1 and 5, the cover 16 fits onto the top edge of the sleeve 14 and is pushed down until all of the locking tabs 36 enter into the slots 22 to lock the cover in place and the top edge of the sleeve engages the inside surface of the cover.
As shown in FIGS. 9, 10, 11, and 11A, reliefs 39 can be formed in the cover directly opposite the locations of the tabs 36 to provide space into which the sleeve material can flex during the insertion and removal steps. The floors of the reliefs are on the same level as the groove 38 so that the tabs 36 are above the relief floor when the cover is inserted as shown.
As shown in FIG. 11, the cover 16 has an interior deck 60 with bosses 62, a peripheral groove 38 bordered by a rim 40 that extends around the entire cover. The lock tabs 36 are molded into the inside surface of groove 38 as shown in FIG. 9A. The cover tabs 36 may be of twin sheet construction as shown in FIG. 9 or single sheet per FIG. 10.
Detailed Description of the Second Embodiment
The second embodiment is generally similar to the first embodiment described above and also corresponds to the overall view as shown FIG. 1. The major difference is that the locations of the locking tabs and receiver slots are reversed; i.e., the locking tabs are located on the sleeve and the “pockets” or apertures that receive the tabs are in the pallet and cover. The overall function is the same as in the first embodiment; i.e., the container is assembled by pushing the sleeve bottom edge fully into the pallet groove and pushing the cover fully down on the sleeve top edge. Disassembly is done in reverse order. The tabs are created using molded plastic, foldable clips 60 and 80 that are installed on the sleeve 14 whereas the receiver slots are formed as pockets or apertures 62 in the structures of the pallet and cover to receive clip tabs 64, 96 and provide the locking operation. In other respects, the two embodiments are essentially the same.
Referring to FIGS. 12-14, there is shown a first style for a foldable clip structure 60 of molded plastic which is used to create double-ply locking tabs 64 along the top and bottom edges of a sleeve 14′. These locking tabs, once the clips 60 are installed in the proper locations, fit into pockets 62 that are molded into the groove of the pallet and the cover, a pocket 62 in the pallet being shown in FIG. 20. Holes are die cut into the sleeve 14′ at the proper locations to coincide with the location of the clip features that extend through the sleeve material. The clips have double fold lines 66 that are spaced apart by approximately the thickness of the sleeve so the clips can be folded to bring male tab 65 into the female tab 64 on the opposite side of the clip 60 and the clip 60 is thereby attached to the sleeve as shown in representative drawing FIG. 18.
FIGS. 15, 16, 17 and 18 illustrate the clip 60 and show male and female locking buttons 68 and 70 respectively that snap together to hold the clips together when assembled to a sleeve edge. An adhesive may be used to cement the clips in the folded/applied condition.
It will be understood that the terms “lock” and “locking” as used herein to define the relationship between the sleeve, pallet, and cover when joined by the tabs and slots/pockets, refers to a fastening protocol that, while secure, is achieved and removed without the need to manually move a bolt or slide latch into a keeper or to use tools for operation.
Referring now to FIGS. 19-26, an additional configuration of the foldable plastic clip 80 is shown. In these figures, the clip 80 is formed of a plastic material such as polyethylene to have two panels 82 and 84 joined by an integral double hinge 85 which permits the two panels to be folded essentially as shown in FIG. 20 into a parallel configuration to sandwich the sleeve material 102 between them as shown in FIG. 21. The double hinge 85 is configurated with two hinge lines far enough apart to accommodate the thickness of the sleeve between them, e.g., 9 mm to 11 mm. In addition, the sleeve is configured to fold flat accordion-style by means of center fold lines 83 in two of the four panels.
Clip panel 84 has formed in the inside surface thereof an oblong protrusion 86 which fits into a hole 88 in the panel 82 to firmly locate the two panels 82 and 84 relative to one another when the panels are folded into a parallel configuration and locked together as hereinafter described. As shown in FIG. 21 a hole 104 is formed in the sleeve to accommodate the protrusion 86 as it makes its way into the elongate aperture 88 in panel 82.
In addition, panel 84 has formed on the inside surface thereof a male locking mechanism 90 on one side of the protrusion 86 and a female locking receptacle 94 on the other side of the protrusion 86. Opposite gender elements 92 and 96 are formed integrally on the inside surface of the panel 82; i.e. a female locking mechanism 92 is configured to receive a male locking element or barb 90 on the opposite panel in a locking relationship therein. It will be noted that the male element has staggered insertion surfaces; i.e. one element being extended in one direction and the other element in the other direction and the female locking receptacle 92 is similarly configured to have undercut recesses of opposite configuration that are staggered so that when the male elements 90 fit therein they lock together. Again, a hole 108 is formed in the sleeve to allow passage of the locking elements therethrough.
In a similar fashion locking element 96 on the panel 82 is staggered from side to side and the undercut receptacle 94 on the opposite panel is similarly configured to receive the staggered male element therein in a locking relationship. Conventional undercuts are used to insure a snap fit in both locking mechanisms and holes 106 and 108 are formed in the panel to receive all of the elements of the locking tabs.
As shown in FIGS. 24-26, it is desirable to be able to fold the sleeve 14 flat for storage or return shipment. To accomplish this, inwardly folding hinge lines 83 are formed in two opposite sleeve panels and the sleeve can thus fold “accordion-style” as shown in FIG. 26.
To ensure that the outwardly-protruding tabs of the clips 80 on these inwardly-foldable panels do not collide and prevent full-folding, the clips 80 on the accordion-fold panels are offset from center and slots 81 are provided to receive the tab of the clip 80 on the adjacent panel when fully folded. A similar arrangement is made for the cover 16.
Although the most common arrangement is to have eight locks on each of the pallet-sleeve combination and the cover-sleeve combination, with two clips on each of the top and bottom sleeve panel edges, various alternative arrangements are possible. For example, the cover may have locks only on two panels as shown in FIG. 24.
Assembly of the clips to the sleeve 102 is reasonably simple; i.e. the three necessary slots are formed in the sleeve 102 at every location where a lock is to be provided; e.g., there will be two sets of such slots on each of the faces or sides of the sleeve. The clips are folded and locked together with the sleeve material 102 sandwiched between them and with the locking tab 96 formed on the outside surface of panel 84 pointing in the direction of an aperture 62 in, for example, the pallet side wall is shown in FIG. 22. After all of the clips have been installed, the sleeve can be inserted into the peripheral groove of the pallet with the tabs 96 fitting into the apertures 62 in the outer peripheral rim or wall of the pallet to lock them elements together. Again, there can be a relief or a slight widening of the groove opposite the aperture 62 formed in the interior deck of the pallet.
A similar arrangement is provided for the cover, i.e., the cover receives the top edge of the sleeve inside of the rim with the clips providing tabs that snap into apertures in the outside rim. It is important that the sleeve edge fully contact the cover inside surface as shown in FIG. 9 so stacking of containers does not impose a vertical load on the tab lock.
By way of summary, a passive locking mechanism between a container sleeve and both the pallet and cover of a three-part container is provided. In all cases the locking mechanism is provided by means of sets of protruding tabs and either pocket or apertures in the opposite member which receive those tabs. In one embodiment the tabs are formed in the pallet and cover and slots to receive the tabs are formed in a simple fashion along the top and bottom edges of the sleeve.
In the second and preferred embodiments the tabs are provided by means of foldable plastic clips that lock on to the interior and outside surfaces of the sleeve walls at various locations, preferable two spaced apart locations on the top and bottom edges of the sleeve panels. In these embodiments, simple apertures are provided in the outside rim or wall of the pallet and the outside wall of the cover to receive the tabs therein. The tabs or clips containing the tabs snap lockingly on to the sleeve sidewalls and essentially reinforce the slots in the sleeve to prevent tearing. In all embodiments, the tab locks do not engage until the sleeve edges are fully inserted; i.e., the sleeve edge “bottoms out” on the floor of the pallet groove and the top of the cover deck.
It is to be understood that the invention has been described with respect to illustrative embodiments and that various modifications thereto may be made to accommodate size and material requirements and the like without departing from the sprit and scope of the invention as defined in the appended claims.