This application claims the benefit of U.S. patent application Ser. No. 10/397,703, filed Mar. 26, 2003, entitled “Interlocking modular tubular pallet” and U.S. Provisional Patent Application No. 60/366,033, filed Mar. 28, 2002, entitled “Interlocking modular polymer tubular design”.
1. Field of the Invention
The present invention relates to support structures, such as decking produced from plastic lumber materials, or pallets, for instance pallets on which articles are stacked or assembled to enable handling and shipment of articles. More specifically, the present invention relates to support structures that can be easily assembled in modular fashion in several configurations to provide continuous top and bottom surfaces, and at a minimal expense, and that can be easily assembled, disassembled and reassembled as needed for maintenance.
2. Description of Related Art
Historically, pallets have been constructed with wood materials, having a plurality of parallel stringers on which are nailed or otherwise secured one or more structural members defining a platform. Pallets and decking have also been constructed of extruded or formed metal such as steel or aluminum, and also been molded or extruded plastic materials, including virgin plastic material or plastic material that has been recycled or reclaimed from waste. The materials used in said pallets and said decking are typically connected using mechanical fasteners or bonding agents.
Support structures of this type that are constructed of plastic have unique problems. For decking applications, the existing solid plastic lumber is heavier than the conventional wood deck and requires nails, fasteners, or adhesives to hold it together. Most pallet designs do not have interlocking sections and as such require fasteners.
Current designs for pallets utilizes fasteners to build structure into the pallet. The U.S. Air Force uses a balsa-wood pallet with aluminum skin to transport cargo in the cargo planes. The aluminum skin is attached to the balsa wood core material with adhesives and rivets. This design causes the pallet to be heavy and also requires the pallet to be repaired at the manufacturing facility in Minnesota. There is a need, then, for a pallet that is lighter, less expensive, and easier to repair than the current balsa wood pallet.
For wood decking applications, the wood and most plastic lumber materials are solid and are attached with nails into cross beams. Bending stresses in such a decking application occur on the top and bottom surfaces, but the solid material is used is very heavy.
Prior patents in the area of pallets and decking offer sections that do not interlock simply, but rather require fasteners or other connecting structures or devices. In such prior designs it is difficult to create and maintain a continuous surface across the top or bottom of the structure, as the structural elements used in such pallets or decking are connected with mechanical fasteners or bonding agents.
Prior art structures include U.S. Pat. No. 5,921,189, to Estepp, for a pallet made from a rectangular tubular elements of open ended plastic material in adjacent parallel contact, which and are fastened at outer sidewalls and at the ends by a fastening device.
U.S. Pat. No. 5,809,902, to Zetterberg, describes a pallet comprised of a solid deck comprised of rail elements that are attached together with at least two elongated, angularly folded fixing members that attach with insertable grooves made in the boards transverse to their longitudinal direction. The fixing member is made of metal as an angle piece with flanges. The grooves and fixing member engage on top surface and on perpendicular side face. The grooves are cut into deck material perpendicular to longitudinal direction
In Zetterberg the fasteners are required to secure the separate sections. The separate sections are connected with a modified angle iron that engages only at the ends of the rail elements. The middle sections of adjacent rails are not connected or secured to one another for support.
In some prior devices the side walls and not the top and bottom walls have an interlocking structure. A side-wall connecting pallet requires fasteners and/or adhesives to hold the structure together. The side-connecting plane results in a shearing plane being formed when weight is added to the top surface. The weight in loaded on the top surface, which is perpendicular to the side-interlocking surface. This is the cause of the shearing plane. The shearing plane is on the side walls and will result in the side walls separating as the weight on the top surface causes the pallet to bend. Thus the side walls still must be attached via mechanical fasteners and/or bonding agents. Current designs for pallets and decks utilize adhesives or fasteners to build structure.
No pallet or decking of the prior art provides sections that interlock and form a continuous surface on top or bottom. Thus there remains a need for a modular support structure that does not require special fasteners or bonding agents.
The present invention provides a tubular structure with a snap fit of interlocking sections that form a surface in the same plane as the weight on the top surface that would further engage the interlock connection With the invention, there is provided a modular pallet that can be easily disassembled and reassembled to connect other tubular sections, if a repair is required. It provides a pallet or decking product that is lighter, less expensive, and easier to install than current solid plastic lumber, and lighter, less expensive, and similar in cost to wood products.
The interlocking structure uses a modular structure with overlapping annular, or tubular, sections. Thus, there is provided a modular section for forming a support structure, being elongated and having a generally annular, or open, cross-sectional configuration with spaced upper and lower surfaces and spaced side walls, the upper and lower surfaces and side walls forming upper and lower edges, respectively, at the interfaces, wherein the upper and lower surfaces each comprise an extension at the respective upper and lower edges, the extensions having a flange formed at the ends thereof, and where the upper and lower surfaces each have a groove formed therein.
When two adjacent sections are aligned along respective side walls the flange of an upper surface extension fits the groove in the upper surface of its adjacent section and the flange of a lower surface extension occupies the groove in the lower surface of a neighboring section, thereby forming an interlocking fit of the adjacent sections. Preferably, the upper and lower surfaces of each adjacent modular section are disposed in substantially parallel relation with each other, and the side walls are disposed in substantially parallel relation with each other, and substantially perpendicular to the upper surface and the lower surface wall. In this way the upper surfaces of adjacent interlocking sections form a continuous planar surface for the support structure, as will the lower surfaces.
The modular sections may comprise at least one intermediate wall disposed between the side walls.
The modular sections are preferably integrally constructed, such as when formed by an extrusion process, though it may be formed by injection molding. A preferred such section is formed of polypropylene, and may have a recycled plastic content.
The groove in the upper surface of each modular section extends the length of respective upper and lower surfaces, and is formed in a portion of the upper and lower surfaces removed from the edges formed with the side walls.
The plurality of modular sections can be selected to form a flat surface, such as a pallet or deck, or may be configured to form a more complex article such as a a piece of furniture, a bench, a table or a chair.
A method for manufacture of a tubular pallet is also provided, comprising forming a plurality of modular sections each having a generally open cross-sectional configuration with spaced upper and lower surfaces and spaced side walls, the upper and lower surfaces and side walls forming upper and lower edges, respectively, at the interfaces, where the upper and lower surfaces each comprise an extension at at least one edge, the extension having a flange formed at the ends thereof, and where the upper and lower surfaces each have a groove formed therein; and establishing interlocking assembly of the interlocking sections for securing top and bottom walls of the plurality of pallet sections in interlocked assembly.
A tubular pallet is also provided comprising a plurality of elongated plastic modular sections having protruding flanges on the top surface and bottom surfaces of one side arranged to interlock with grooves formed in the top surface and bottom surface of the opposite side of an adjacent section. The flanges extends along the length of the tubular section and the grooves are formed such that a flange of one section is insertable into the corresponding groove formed in the adjacent section to secure one the adjacent sections. Each of the flanges has a depth and a width that substantially corresponds to a depth and width of the corresponding groove, though the groove may be wider that the width of the flange to allow for expansion.
In a preferred embodiment the flanges reversibly are removable from the grooves to allow easy disassembling of the pallet.
These and other features and advantages of this invention are described in, or are apparent from, the following detailed description of various exemplary embodiments of the devices and methods according to this invention.
Various exemplary embodiments of this invention will be described in detail, with reference to the following figures, wherein:
So that the manner in which the above recited features, advantages and objects of the present invention are attained and can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to the preferred embodiment thereof which is illustrated in the appended drawings, which drawings are incorporated as a part hereof.
It is to be noted however, that the appended drawings illustrate only a typical embodiment of this invention and are therefore not to be considered limiting of its scope, for the invention may admit to other equally effective embodiments.
Thus, as will be understood more clearly from the embodiment of the support structure, in accordance with the invention, and illustrated in
The support structure provides a continuous surfaces, top and bottom, without gaps, with large open or air spaces inside the structure based upon the annular profile section. Also, the support structure is made of sections that are interlocking and overlapping and snap together without fastening devices. A support structure, such as a pallet, produced from the tubular sections is lighter, less expensive, and easier to repair than current pallets made from balsa wood and aluminum skins.
Referring again to
In
Looking more particularly at pallet sections,
The interlocking flange design allows for structural integrity, smooth rolling surface on top and bottom. At least two tubular elements are located next to one another with collinear edges and are oriented in the same direction to support loads on top and bottom surfaces and resist bending. Each tubular section of subassembly sections 1, 2, 34, 5 and 6, has a planar upper wall 10 defining an upwardly facing planar surface 20 and with a planar lower wall 12 defining a downwardly planar surface 30 is substantially coplanar with the upper wall of the neighboring tubular section with the same geometry and planar upper wall 14 defining an upwardly facing planar surface 20 and with a planar lower wall 16 defining a downwardly planar surface 30.
The edge of the top surface 10 of one tubular section has a flange 11 that protrudes from it and is of such a design that it fits in a corresponding groove 15 of an adjacent tubular section so as to provide a flat connected surface. The top walls 20 and 30 define flange and tab interlocking connectors for securing the pallet sections in immovable assembly. The protruding flanges 11 and 13 are on the top and bottom walls and on the right side with corresponding grooves 15 and 17 on the top and bottom walls and on the left side of the tubular section. The flange can as well be on the left side top and bottom walls with the corresponding groove on the right side top and bottom walls. Some tubular sections can have flanges on both top and bottom walls for the left and right sides. Some tubular sections can have grooves on both top and bottom walls for the left and right sides. Any combination of the flange and groove as fore mentioned to provide interlocking modular sections.
Section 1 in
Numerous suitable methods are know for manufacturing the tubular sections having the open or annular characteristic. Looking to
The grooves may be wider that the width of the flange to account for expansion and contraction of plastic sections during weathering effects of hot and cold ambient temperatures.
Thus, it is seen that the individual sections have a shape that may be extruded with the interlocking features molded in the tubular structure. More particularly, the annular sections,
The formed pallet subassembly sections can be joined together in the manner illustrated in
After establishing interlocking assembly of the interlocking sections, securing the interlocking sections in permanent and immovable assembly can be further assisted by the use of various additional pieces.
The pallet cross piece 600 (
The modular sections can be made from 2, 3, 4, 5, or any number of sections, and additional pallet sections to be added to the ends of the tubular sections as well, with the use of middle connecting pieces 300, as shown in
Also, the interlocking tubular sections, e.g., sections 1, 2, 3, 4, 5, and 6 in
When two subassembly sections come together at the center of the pallet, the sections cannot connect since both sections will have grooves butting together. As shown in
In
The middle or dual connector piece 300 is also used to connect sections 1 to 2, sections 2 to 3, and sections 5 to 6. The modular design of the tubular sections allows for the continuous structure to be divided into several regions for ease of repair or serviceability. The modular sections are connected together with the snap fit assembly to form the overall structure shown as an example in
With the interlocking modular sections the support structure, pallet, deck or other article, can be repaired less expensively and much easier than a single unit type of construction. If several modular sections are combined to make a structure, then if one section is damaged, it can be replaced by disconnecting the one bad section from the whole unit and replacing the bad section with a good section. The air sections formed by the annular nature of the tubes makes them substantially lighter than most conventional pallet and decking or related materials.
Although six pallet tubes or sections are shown, such is not intended to limit the spirit and scope of the present invention because any suitable number of interconnected tubes or sections may be utilized. Also, elements or sections in the form of structures other than tubular elements or sections may be also within the spirit and scope of the present invention. It is only necessary that the sections that are assembled to form a pallet structure integrity to support objects or articles of predetermined maximum weight and that the pallet be capable of being supported in a floor surface and that the pallet present a substantially planar upper surface on which articles may be stacked.
A pallet produced from the tubular sections would be lighter, less expensive, and easier to repair than current aircraft pallets made from balsa wood and aluminum skins. The continuous top surface provides a continuous support for loading along the edges will not result in a gap between the decks even if only supported at the ends.
The modular sections can comprise two or more sections that snap in to one or several units. As an example, the pallet structure in
Sections 300 and 500 (
The benefits of the connecting pieces are to provide local structure for the pallet (or decking) and to enable it to be modular in the length direction. The number of connecting sections and the length between sections can vary depending upon the application. Some pallet (or decking) designs might require close spacing of the tubular sections, whereas, other designs might require very large spacing between sections. The thickness of the connecting pieces can also vary depending upon the application. The connecting pieces allows an increase in thickness at the connection and thus stiffening the section since it is thicker. The connecting pieces can be designed to accept fasteners or attachment devices for the pallet.
If a tubular section breaks, the connecting pieces allow the pallet to be disassembled and the damaged part replaced with a new section. The connecting pieces can be hollow or solid. The connecting pieces can be made from plastic, metal, wood, ceramic, rubber, polymer composite, or other suitable material. The repair and reassembly can occur at the end user's location, which will reduce the cost of repair and shipping.
While this invention has been described in conjunction with the specific embodiments outlined above, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the preferred embodiments of the invention, as set forth above, are intended to be illustrative, not limiting. Various changes may be made without departing from the spirit and scope of this invention.
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Number | Date | Country | |
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20050160949 A1 | Jul 2005 | US |