Pallet design with structural reinforcement

Abstract

A reinforced pallet which is constructed of a generally planar surfaced body constructed of a corrugated material and including a plurality of partition defining members and a corrugated surface board material, such as a paperboard or plastic, applied over the body. A plurality of recessed notches are incorporated in the partition defining members for seating any number of skeletal inner reinforcing members, such as which may be arranged in any of crosswise or overlapping and grid defining fashion.

Description

FIELD OF THE INVENTION

The present application discloses a pallet exhibiting any type of corrugated paperboard or plastic material and which is incorporated into a structurally reinforced body which may further include an inner skeletal support including such materials as bamboo sections, 2×4 wood beams and aluminum or steel rods or bars.

DESCRIPTION OF THE RELEVANT ART

The prior art is well documented with various type of pallet designs. In additional to conventional wood pallets, additional materials including plastics and the like have been utilized in the construction of load bearing pallets, with varying degrees of effectiveness.

SUMMARY OF THE PRESENT INVENTION

The present invention discloses a reinforced pallet which is constructed of a generally planar surfaced body constructed of a corrugated material and including a plurality of partition defining members and a corrugated surface board material, such as a paperboard or plastic, applied over the body. A plurality of recessed notches are incorporated in the partition defining members for seating any number of skeletal inner reinforcing members, such as which may be arranged in any of crosswise or overlapping and grid defining fashion.

The skeletal members may include any plurality of bamboo, steel or aluminum rod, wooden 2×4 or other elongated and structurally defining members. Inner perimeter defined handholds are formed through the surface board and body. A plurality of foam defining sections may also be arranged around a perimeter of the body.

Other features include a frame portion secured upon a perimeter extending undersides of the pallet body, this such as for assisting in transporting the pallet upon a conveyor. Additional features include body further having a shallower partition defining body combined with interspersed and deepened partition defining sections along both perimeter and interior locations and which collectively define underside receiving forklift apertures.

BRIEF DESCRIPTION OF THE DRAWINGS

Reference will now be made to the attached drawings, when read in combination with the following detailed description, wherein like reference numerals refer to like parts throughout the several views, and in which:

FIG. 1 is a partially cutaway perspective view of a structurally reinforced pallet according to a first configuration and which combines a corrugated paperboard surface material with a structural body exhibiting multiple partitions and which is further configured for supporting an inner skeletal structure in the form of cross wise extending bamboo rods;

FIG. 2 is a rotated underside view of the pallet design of FIG. 1 and further depicting such features as seating edge profiles established between upper and lower perimeter edges of each pallet for facilitating multiple stack-ability combined with forklift receiving gaps and interior hand hold apertures for permitting individual manipulation;

FIG. 3 is a plan view similar to FIG. 1 in which the corrugated surfacing material is removed to reveal the multiple overlapping configuration established by four elongated bamboo sections;

FIG. 4 is an alternate view similar to FIG. 3 and illustrating a single pair of cross extending bamboo sections;

FIG. 5 is an illustration similar to FIG. 4 and illustrating a modified structural defining pallet which seats a plurality of grid defining 2×4 members;

FIG. 6 is another alternate configuration similar to FIG. 4 in which a pair of aluminum or steel bars substitute for the bamboo sections;

FIG. 7 is a further variant of an underside plan view of pallet design similar to FIG. 4 and in which a plurality of perimeter edge located foam sections are incorporated into the pallet body construction in order to provide impact absorbance and resistance to such as impinging lift forks which are not properly aligned with the dimensioned forklift receiving apertures;

FIG. 8 is a further sub-variant of pallet design which combines the perimeter located foam sections in combination with inner structural enhancing 2×4 sections; and

FIG. 9 is an underside perspective similar to FIG. 2 and in which a frame portion is secured upon the perimeter extending underside of the pallet body such as for use upon open loop or other types of automated conveyors.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to the following illustrations, the present application discloses a pallet exhibiting any type of corrugated paperboard or plastic material and which is incorporated into a structurally reinforced body. As will be further exhibited, an inner skeletal support can be incorporated into the pallet construction and which may include without limitation such materials as bamboo sections, 2×4 wood beams and aluminum or steel rods or bars, the construction resulting in a desired combination of light weight and enhanced load bearing and dynamic structural resilience.

Referring now to FIG. 1, a perspective view is shown at 10 in partial cutaway of a selected composite stackable pallet construction according to a first preferred embodiment of the present inventions. As previously described, the stackable pallet construction is designed so as to provide heavy duty support of items located thereupon and exhibits, according to the selected variant, a structural supporting body constructed from any of a heavy duty paperboard or plastic corrugated material which operates to greatly enhance the strength of the pallet assembly in supporting heavier loads set thereupon.

As will be further described, the pallet body can exhibit any type of segmented or partitioned interior providing a desired structural configuration and into which the desired inner skeletal support is integrated. Such designs can also encompass interiorly extending open apertured locations, recesses or other configurations, these further reducing the overall weight of the pallet without compromising its strength. The underside of each pallet can further exhibit linear width and/or length extending recesses, and which are designed to seat inserting forks associated with a conventional forklift machine.

Referring again to FIG. 1, the partially cutaway perspective view of the structurally reinforced pallet 10 combines a corrugated surface material 12 (again shown as a durable paperboard but also envisioning the use of a like corrugated shaped or otherwise configured plastic or other suitable surfacing material). As shown, the surface 12 exhibits a generally rectangular shape and defines a top load supporting surface, with the surfacing material also envisioned to extend across the contiguous side and bottom surfaces of the three dimensional defined body structure as further shown.

A plurality (e.g. four shown) of interior cutout portions, depicted by closed rectangular and inner perimeter extending shapes 14, 16, 18 and 20, are defined within the durable surface board material (and as described through the underlying structural defined pallet body). The cutout portions 14, 16, 18 and 20 accordingly define handhold locations, such as for permitting individual movement of the pallets prior to loading.

With reference again to FIG. 1, as well as succeeding views FIGS. 2-9, a three dimensional and structural body is provided having a general outline matching that of the surface board material 12. Specifically, the body is again constructed of a heavy duty corrugated material, such as a durable paperboard, plasticized or potentially composite type material and, as further shown, exhibits multiple partitions which are representatively depicted in FIG. 1 by selected illustrated intersecting walls 22, 24, 26, et seq., the partitions being formed in intersecting fashion to define a lattice type relationship across the entire area and volume of the body.

The corrugated material forming the surface board 12 layer and/or the structural defining body can include any form of honeycomb pattern or design, such as which may be produced in an initial manufacturing operation which combines three layers of material (including top and bottom layers which sandwich therebetween any formed of undulating or angled middle layer which collectively gives the corrugated material its initial properties of strength and durability). As will be further described, any desired arrangement of ribs or other interior supports can also be provided in order to increase the durability and load bearing characteristics of the structural defining body.

Without elaboration, any suitable fabrication process can be employed in the creation of the structural defined body, such including the provision of a recessed defined template which corresponds to the overall dimensions of the article and which facilitates fast and correct assembly of the individual partitioning and reinforcing structural elements which compose the three dimensional defined body. This can include the use of adhesives or other mechanical bonding agents or techniques for assembling the collectively defining grid and diagonal extending portions which constitute the structural pallet body.

The inner partitions are further collectively designed such as to exhibit inner recesses or channels in any of length, width or diagonal extending fashion (see inner configurations at 28 and 30 in FIG. 1). Suitably configured partitions are defined in spaced apart fashion at each or both of diagonal and/or crosswise arranged locations within the three dimensional interior of the body and such as to facilitate installation of inner skeletal members in the form of both diagonal 32 and crosswise 34 extending bamboo rods, these evident in partially evident fashion and which seat within elongate established recess profiles illustrated.

FIG. 3 is a plan view similar to FIG. 1 in which the corrugated surfacing material is removed to reveal the multiple overlapping configuration established by four elongated bamboo rod sections and again including those depicted at 32 and 34, combined with a further pair of overlapping sections 36 and 38. Additional to the inner recessed configurations associated with the partition structure (again inner cutout surfaces 28 and 30 established within aligning and length defining locations within the structurally grid configured interior) the bamboo rods can also be notched or keyed at intermediate overlapping locations, (see at 40) in order to facilitate being arranged in a crosswise fashion. FIG. 4 is an alternate view similar to FIG. 3 and illustrating a single pair of cross extending bamboo sections 32 and 36, a corresponding intermediate notching of selected bamboo section 32 likewise being depicted at 37.

With reference to FIG. 2, the structural defining body 10 includes both side edge extending and central interior deepened sections (see deepened interior section 38 combined with spaced and perimeter side extending deepened sections 40, 42, 44, 46, 48, 50, 42 and 54). The deepened sections, when combined with the shallower partition sections which collectively define the surface area of the pallet body (this matching the surface board material 12), establish the underside accessible configuration of the pallet body 10. The gaps established between the deepened sections 38, 40, 42, 44, 46, 48, 50, 52 and 54 define forklift receiving gaps (see inverted underside locations depicted in pairs 39 & 41, 43 & 45, 47 & 49, and 51 & 53 in FIG. 2).

Viewing FIG. 1 in combination with FIG. 2, selected individual pluralities of seating edge profiles are established between upper (see in FIG. 1 at 56, 58, 60 et seq.) and lower (in FIG. 2 at 62, 64, 66, et seq.) perimeter edges of each pallet and, upon configuring such opposing seating profiles around entire upper and lower perimeters of each body as shown, facilitating multiple stack-ability of the bodies (e.g. pallets) when either being stored or transported. The perimeter spaced and locating profiles are configured such that top surface projecting edge portions (again at 56, 58, 60 et seq.) shoulder around and upon inwardly stepped or recessed edge portions (again underside surface location 62, 64, 66, et seq.) corresponding to an underside of an upper stacked pallet body. In this fashion, the stacked plurality of bodies are prevented from toppling and/or laterally displacing relative to one another.

As again representatively shown in such as FIG. 4, additional diagonal supporting partitions are provided, such as associated with the edge defining deepened sections (these representatively depicted by pairs of diagonal overlapping reinforcing partitions 68 (corresponding to deepened section 50 in FIG. 2), partitions 70 (deepened section 46) and partitions 72 (deepened section 42). In this fashion, and when combining the strength achieved by the construction and arrangement of the partition sections with the installed skeletal rods, the pallet exhibits the combined properties of lightweight and enhanced strength. Also, shown in FIG. 4 are additional diagonal offset extending reinforcing support locations, representative portions of which are shown at 65, 67, 69 and 71 in double walled configuration (with contiguous single wall constructions also being shown which extend to the outermost perimeter and corner proximate locations of the pallet body), and which combine with the inserted and crosswise overlapping bamboo or like sections 32 and 36 in order to provide additional internal structural rigidity to the assembly.

Referring now to FIG. 5, an illustration similar to FIG. 4 is shown and depicts a modified structural defining pallet which is configured for seating a plurality of grid defining 2×4 members or sections 74, 76, 78 and 80. Without elaboration, the inner recessed configurations associated with the bamboo variant of FIG. 1 are revised, such as depicted at representative locations by spaced apart inner opposing surfaces 82 & 84 (associated with elongated member 76), 86 & 88 (associated with elongated member 78), and 90 & 92 (associated with elongated member 74).

In construction, the interior configuration of the body is such that it is capable of seating in inner elongate extending fashion such elongated members not necessarily limited to the 2×4 sections shown, and in any type of overlapping or keyed/notched seating fashion (such as including those previously described) and further so as to define an enhanced structurally supporting article exhibiting a desired set of weight and performance characteristics. Otherwise, the remaining features of the pallet construction remain as previously described such that a duplicate description for each of the remaining figures is unnecessary.

FIG. 6 is another alternate configuration similar to FIG. 4 in which a pair of aluminum or steel bars, at 94 and 96, substitute for the bamboo sections such as depicted at 32 and 36 in FIG. 4. FIG. 7 is a further variant of an underside plan view of pallet design similar to FIG. 4 and in which a plurality of perimeter edge located foam sections 98, 100, 102, et sq., are incorporated into a reconfigured pallet body construction in order to provide impact absorbance and resistant, such as in response to external objects (including the front inserting surfaces of lift forks). Comparing to FIG. 4, the configuration of FIG. 7 repeats many of the inner and reinforcing grid defining features previously described, with the exception that the outer perimeter sections are replaced partially or entirely with the block like foam sections 98, 100, 102 et seq.

FIG. 8 is a further sub-variant of pallet design, such as similar in many respects to that shown in FIG. 7, and which combines the perimeter located foam sections, again 98, 100, 102, et seq., with inner structural enhancing 2×4 sections 104 and 106. The perimeter edge of the pallet further exhibits an intermediate wood strip 108 (itself applied over the foam blocks) and in turn over which is covered a corrugated edge strip 110 or the like and such that these features, in combination with the foam or other energy absorbent and perimeter spaced blocks 98, 100, 102 et seq., provide enhanced energy absorption characteristics in addition to exception load bearing support along with relatively light weight.

Finally, FIG. 9 is an underside perspective similar to FIG. 2 and in which a frame portion (see “U” shaped subsections 112 and 114) are secured upon the perimeter extending underside of the pallet body. Although not shown, the underside secured frame portion was provided for use upon open loop or other types of automated conveyors and for which the forklift gaps in the underside might otherwise cause problems in stability or location.

Having described my invention, other and additional preferred embodiments will become apparent to those skilled in the art to which it pertains and without deviating from the scope of the appended claims.

Claims

1. A reinforced pallet comprising: a three dimensional body exhibiting a planar top, interconnecting sides and a bottom, an interior of said body being constructed of a plurality of intersecting and partition defining members extending between said top and bottom and in each of crosswise and diagonal fashion within and throughout said interior, a sub-plurality of said partition defining members further defining notched locations for seating a plurality of extending inner skeletal members in either or both of diagonal or crosswise extending fashion, said notched locations further defining a continuous passageway extending between said sides and opposite corners of said body for receiving said inner skeletal members;a corrugated surface board material applied over said top and sides as well as an adjoining underside of said body; andinner perimeter defined handholds defined at spaced apart locations of said body and extending through said surface board and inner partition defining locations.

2. The pallet as described in claim 1, the corrugated material further comprising a paperboard or plastic.

3. The pallet as described in claim 1, said skeletal members further comprising any of a bamboo, steel or aluminum rod, wooden 2×4 or other elongated and structurally defining members.

4. The pallet as described in claim 1, A further comprising inner perimeter defined handholds defined through said surface board and body.

5. The pallet as described in claim 1, further comprising a plurality of foam defining sections arranged around a perimeter of said body.

6. The pallet as described in claim 1, further comprising a frame portion secured upon a perimeter extending underside of the pallet body.

7. The pallet as described in claim 1, A said body further comprising a shallower partition defining body combined with interspersed and deepened partition defining sections along both perimeter and interior locations and which collectively define underside receiving forklift apertures.

8. The pallet as described in claim 1, further comprising top and bottom pluralities of spaced apart and edge extending profiles projecting from said interconnecting sides of each of a plurality of said bodies for facilitating multiple stackability.