The invention relates to trackable pallets made of nylon, and useful methods for their preparation and use.
Transport and storage containers made of plastic are widely used in national and international trade. These containers protect and carry their contents during storage and transport, and there is a growing need for durable containers that efficiently maintain the quality of their contents.
One especially useful transport and storage containers is the pallet, a structural platform made of metal, wood, or plastic materials. Wooden pallets have been around for several years used, but their production and maintenance make them unwieldy and expensive. In addition, wooden pallets have limited useful life due to adverse weather and can fail due to rotting when they are wet. In addition, wooden pallets are assembled by fastener means such as glue, nails, or staples. Harsh weather conditions also accelerate the decline of these fasteners leading to failure of the wooden pallets.
The potential for insect infestation also presents a growing need to treat wooden pallets created before export. For nearly twenty years, the European Union has required heat treatment or chemical treatment for all unprocessed wood pallets made from conifers. Freight transport on wooden pallets that do not meet these requirements are rejected at the border. It is even more likely is that such non-compliant wooden pallets are destroyed at the expense of the shipper.
Metal pallets also have problems. Typically, they are expensive, heavy, and susceptible to corrosion.
Plastic pallets, including High-density Polyethylene (“HDPE”), present possible flammability issues and related problems. If fire occurs, plastic pallets are susceptible to flow, resulting in molten plastic leads, whereby the heat and fire spreads. The National Fire Protection Association has issued Forced Regulations that the usefulness of plastic pallets to reduce these hazards. These Regulations impose that plastic pallets have a composition comprising a thermosetting resin, which may be an epoxy resin, and a plurality of thermoplastic resins. These compositions may contain, for example, flame retardants. One known approach is constructions of polyvinylchloride pallets having a polyolefin upper deck and a polycarbonate or polyphenylene lower deck. Other approaches employ a polyolefin/halogenated epoxy pallet composition, where the halogenated epoxide acts as a flame retardant, optionally combined with a second flame retardant. These retardant regulations impose the expense of one or more of these additional and complex manufacturing component chemical subparts.
Another limitation for goods stored and transported on pallets internationally are that the specific goods are not trackable, monitored, or accounted for between a shipping port and a receiving port of entry.
Finally, a further limitation for goods stored and transported on pallets internationally are that during transport or storage the specific goods are subjected to extreme environmental conditions that degrade or spoil the transported goods with no means for alerting the sending party, the transporting party, or the receiving party of these conditions during storage and transport.
Thus there is a need for an improved pallet constructed of nylon that is durable and that overcomes the many limitations of existing metal, wood, and plastic pallets.
There is yet a further need for an improved pallet construction of nylon that provides a low profile, high weight capacity with pallet jack, forklift, and pallet equipment (PE) access from all sides through openings within the pallet so the improved pallet can be used with most material handling equipment including forklifts, pallet jacks, PE, and palletizers and other standard material handling equipment used in the art.
There is a further need for an improved pallet constructed of nylon rated to have a “no flashpoint” rating by either Underwriting Laboratories or nylon manufacturers making nylon a natural fire-resistant material eliminating any need for fire retardants. Constant re-evaluation of carcinogens in fire retardant means for plastic pallets under the Environment Protection Act make plastic pallets potential targets for recalls for the fire-retardant chemicals. The improved nylon pallet overcomes this limitation of plastic pallets and makes the improved nylon pallets especially suited for the food and pharmaceutical industries.
A further need for an improved pallet constructed of nylon is using only recycled nylon for the improved nylon pallet manufacture, thus greatly decreasing the environmental carbon footprint of such durable improved pallets. The nylon pallets would also be recyclable into new nylon pallets at the end of each improved nylon pallet's useful life cycle.
There is yet a further need for an improved nylon pallet that includes data collecting capabilities using RFID/GPS hybrid cellular based tags and/or sensors for temperature and environmental gasses such as carbon dioxide for data transmission during storage and transport, and use of other block-chain technologies, to maximize pallet platform and data potential, to meet the needs of shippers, transporters, and recipients, and to fulfil governmental regulations and industry standards.
A further need exists for an improved nylon pallet capable of accepting custom designed removable locking casters providing more flexibility where forklifts, pallet jacks, or PE cannot access or move pallets in tight spaces. This feature allows pallet interlinking to enhance forklift utility in pulling multiple loads at a time saving forklift trips. Locking casters also allow movement of heavily loaded pallets on a warehouse floor without the need of forklifts, pallet jacks, or PE.
A trackable nylon pallet provides a rigid, injection molded nylon bottom portion having a planar bottom side and a top side, two equal length sides, two equal width sides, and four ninety-degree corners. A plurality of equal sized upstanding nylon posts is affixed to the bottom portion top side in arrays of upstanding nylon posts with extended nylon attachment clips and upstanding nylon posts with an open end sized to receive the extended nylon attachment clip.
The trackable nylon pallet also provides a rigid, injection molded nylon top portion of equal size to the bottom portion and comprising a bottom side and a planar top side, two equal length sides, two equal width sides, four ninety-degree corners. A plurality of equal sized upstanding nylon posts is affixed to the top portion bottom side in arrays of upstanding nylon posts with extended nylon attachment clips and upstanding nylon posts with an open end sized to receive the extended nylon attachment clip.
Each trackable pallet includes a nylon locking pin to secure each upstanding nylon post with extended attachment clip to each upstanding nylon post open end.
Each trackable pallet includes an interchangeable communications/sensor box providing an integral global positioning system, at least one integral radio frequency identification device, at least one integral temperature sensor, at least one integral sensor calibrated to detect chemicals, an integral power supply and connected wiring to power components housed in the communications/sensor box.
Each trackable nylon pallet includes at least one integral frame sized to receive and hold the interchangeable communications box without the necessity of opening or otherwise breaking down the nylon pallet.
Each trackable nylon pallet bottom portion planar bottom side is adaptable to receive and be affixed to four removeable, locking casters, one such caster in each of the four ninety-degree corners.
Each trackable nylon pallet provides a low profile, high weight capacity with pallet jack, forklift, and pallet equipment (PE) access from all sides through openings within the pallet so the improved pallet can be used with most material handling equipment including forklifts, pallet jacks, PE, and palletizers and other standard material handling equipment used in the art.
Embodiments of the trackable nylon pallet provide an equal sized rectangular molded nylon top and nylon bottom portions.
Embodiments of the trackable nylon pallet provide equal sized square molded nylon top and nylon bottom portions.
Each trackable nylon pallet can withstand a rack able load of 2,722 kg, and a static load of 45,359 kg.
These and other features, aspects, and advantages of the trackable nylon pallets will become better understood regarding the following description, and drawings as further described.
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Embodiments of the nylon pallet 100, 200, 300 and 400 provide a rigid, injection molded nylon bottom portion 102, 202, 302, and 402, respectively, including a bottom portion planar bottom side 106, 206, 306, and 406, respectively, and a bottom portion top side, 108, 208, 308, and 408, respectively,
Embodiments of the nylon pallet bottom portion 102, 202, 302, and 402 include two equal pallet length sides, 114, 214, 314, and 414, respectively, two equal pallet width sides, 116, 216, 316, and 416, respectively, and four ninety-degree corners, 118, 218, 318, and 418, respectively,
Embodiments of the nylon pallet bottom portion 302 provide a plurality of equal sized upstanding nylon posts affixed to the bottom portion top side 308 in four equal sized arrays of four upstanding nylon posts in the four corners 318 of the bottom portion top side 308, three equal sized arrays of four upstanding nylon posts along a central axis 320 of the bottom portion length sides 314 with two equal sized arrays near the center portion of each length side 314 and the third equal array centered between the two equal sized arrays near the center portion of each length side 314 in the center of the bottom portion top side 308,
Embodiments of the nylon pallet bottom portion 202 provide a plurality of equal sized upstanding nylon posts affixed to the bottom portion top side 208 in four equal sized arrays of four upstanding nylon posts in the four corners 218 of the bottom portion top side 208, three equal sized arrays of two upstanding nylon posts along a central axis 220 of the bottom portion length sides 214 with two equal sized arrays near the center portion of each length side 214 and the third equal array centered between the two equal arrays near the center portion of each length side 214 in the center of the bottom portion top side 208, and two equal sized arrays of four upstanding nylon posts along a central axis 222 of the bottom portion width sides 216 with one array near the center portion of each width side 216,
Embodiments of the nylon pallet bottom portion 102 provide a plurality of equal sized upstanding nylon posts affixed to the bottom portion top side 108 in four equal sized arrays of four upstanding nylon posts in the four corners 118 of the bottom portion top side 108, and two equal sized arrays of two upstanding nylon posts along a central axis 220 of the pallet length sides 114, each equal sized array of two upstanding nylon posts equidistant from the two equal sized arrays in the corners of each pallet length side 114,
Embodiments of the nylon pallet bottom portion 402 provide a plurality of equal sized upstanding nylon posts affixed to the bottom portion top side 408 in four equal sized arrays of four upstanding nylon posts in the four corners 418 of the bottom portion top side 408, three equal sized arrays of four upstanding nylon posts along a central axis 420 of the pallet length sides 414 with two equal sized arrays near the center portion of each pallet length side 414 and the third equal array centered between the two equal sized arrays near the center portion of each length side 414 in the center of the bottom portion top side 408,
Embodiments of the nylon pallet bottom portion 202, 302, and 402 including two equal sized arrays of four upstanding nylon posts along a central axis 222, 322, and 422, respectively, of the pallet width sides 216, 316, and 416, respectively, further include at least one such array providing equal sized nylon frame sides 68 and 70 between upstanding nylon posts 36 and 42, the frame sides 68 and 70 orthogonally disposed to the central axis 222, 322, and 422, of the pallet width sides 216, 316, and 416, respectively,
Embodiments of the nylon pallet bottom portion 102 including two equal sized arrays of four upstanding nylon posts in each corner of the bottom portion top side 108 further include at least one such array providing equal sized nylon frame sides 68 and 70 between upstanding nylon posts 36 and 42, the frame sides 68 and 70 orthogonally disposed to the central axis 120 of the pallet length sides 114,
Embodiments of the nylon pallet 100, 200, 300, and 400 provide a rigid, injection molded nylon top portion 104, 204, 304, and 404, respectively, of equal size to each respective pallet bottom portion 102, 202, 302, and 402, respectively, and including a top portion bottom side 112, 212, 312, and 412, respectively, and a top portion planar top side, 110, 210, 310, and 410, respectively,
Embodiments of the nylon pallet top portion 104, 204, 304, and 404, include two equal pallet length sides, 114, 214, 314, and 414, respectively, two equal pallet width sides, 116, 216, 316, and 416, respectively, and four ninety-degree corners, 118, 218, 318, and 418, respectively,
Embodiments of the nylon pallet top portion 304 include a plurality of equal sized upstanding nylon posts affixed to the top portion bottom side 312 in four equal sized arrays of four upstanding nylon posts in the four corners 318 of the top portion bottom side 312, three equal sized arrays of four upstanding nylon posts along a central axis 320 of the pallet length sides 314 with two equal sized arrays each near the center portion of each separate pallet length side 314 edge and the third equal array centered between the two arrays in the center of each separate pallet length side 314 in the center of the top portion bottom side 312, and two equal sized arrays of four upstanding nylon posts along a central axis of the pallet width sides 316 with each array near the center portion of each pallet width side 316 edge,
Embodiments of the nylon pallet top portion 204 provide a plurality of equal sized upstanding nylon posts affixed to the top portion bottom side 212 in four equal sized arrays of four upstanding nylon posts in the four corners 218 of the top portion bottom side 212, three equal sized arrays of two upstanding nylon posts along a central axis 220 of the pallet length sides 214 with two equal sized arrays near the center portion of each length side 214 edge and the third equal array centered between the two arrays near the center portion of each length side 214 edge in the center of the top portion bottom side 212, and two equal sized arrays of four upstanding nylon posts along a central axis of the pallet width sides 216 with one array near the center portion of each width side 216 edge,
Embodiments of the nylon pallet top portion 104 provide a plurality of equal sized upstanding nylon posts affixed to the top portion bottom side 112 in four equal sized arrays of four upstanding nylon posts in the four corners 118 of the top portion bottom side 112, and two equal sized arrays of two upstanding nylon posts along a central axis 120 of the pallet length sides 114 each array of two upstanding nylon posts near the center portion of each length side 114 edge,
Embodiments of the nylon pallet top portion 404 include a plurality of equal sized upstanding nylon posts affixed to the top portion bottom side 412 in four equal sized arrays of four upstanding nylon posts in the four corners 418 of the top portion bottom side 412, three equal sized arrays of four upstanding nylon posts along a central axis 420 of the pallet length sides 414 with two equal sized arrays each near the center portion of each separate pallet length side 414 edge and the third equal array centered between the two arrays in the center of each separate pallet length side 414 in the center of the top portion bottom side 412, and two equal sized arrays of four upstanding nylon posts along a central axis of the pallet width sides 416 with each array near the center portion of each pallet width side 416 edge,
Embodiments of the nylon pallet top portions 104, 204, 304, and 404, and nylon pallet bottom portions, 102, 202, 302, and 402,
Embodiments of the nylon pallet top portion bottom side 212, 312, 412 including two equal sized arrays of four upstanding nylon posts along a central axis of the top portion width sides 222, 322, 422, respectively,
Embodiments of the nylon pallet top portion including four equal sized arrays of four upstanding nylon posts in the four corners of the top portion bottom side 112,
All embodiments of the nylon pallet 100, 200, 300, and 400 include a plurality of connection and locking assembly points between the pallet bottom portion 102, 202, 302, and 402, respectively, and the pallet top portion 104, 204, 304, and 404, respectively. These connection and locking assembly points are grouped in arrays of four or two and each connection and locking assembly point provides one upstanding nylon post open end 36 receiving one upstanding nylon post with an extended nylon attachment clip 42 from a corresponding array from the top or bottom portion. The extended nylon attachment clip external lip 46 engages an upstanding nylon post open end internal groove 38 and the nylon attachment clip compression slots 44 hold the engagement of the upstanding nylon post with extended attachment clip 42 and the upstanding nylon post open end 36 in place. A nylon locking pin 54 is inserted into each nylon attachment clip compression slot 44 to allow the nylon locking pin body lip 60 to engage the internal attachment clip compression slot 44 and lock the nylon attachment clip compression slot 44 into the nylon upstanding nylon post open end internal groove 38,
Embodiments of the nylon pallet top portion planar top side 110, 210, 310, and 410, and the nylon pallet bottom portion planar bottom side 106, 206, 306, and 406, include a nylon locking pin 54 to secure each upstanding nylon post with extended attachment clip 42 to each upstanding nylon post open end 36,
All embodiments of the nylon pallet include a communication/sensor box 600 sized to be received and releasably held by the corresponding equal sized frame sides between upstanding nylon posts of the bottom portion and top portion,
Embodiments of the nylon pallets 100, 200, 300, 400 include one locking caster 700 releasably attached to each bottom portion planar bottom side ninety-degree corner, 118, 218, 318, and 418, respectively,
An embodiment of the nylon pallet 300 includes equal sized rectangular top and bottom portions, 304 and 302, respectively, each top and bottom portion providing two 1000 mm pallet wide side lengths 316, and two 1200 mm pallet long side lengths 314.
An embodiment of the nylon pallet 100 includes equal sized rectangular top and bottom portions, 104 and 102, respectively, each top and bottom portion providing two 600 mm pallet wide side lengths 116, and two 800 mm pallet long side lengths 114.
An embodiment of the nylon pallet 400 includes equal sized square top and bottom portions, 404 and 402, respectively, and four 1165 mm pallet side lengths.
An embodiment of the nylon pallet 200 includes equal sized square top and bottom portions, 204 and 202, respectively, and four 800 mm pallet side lengths.
All disclosed embodiments of the nylon pallets can withstand a rack able load of 2,722 kg, and a static load of 45,359 kg.
All disclosed embodiments of the nylon pallet 100, 200, 300, and 400 provide top portion bottom side beveled edges, 126, 226, 326, and 426, respectively, and bottom portion top side beveled edges 128, 228, 328, and 428, respectively, on pallet width sides 116, 216, 316, 416, respectively, and pallet length sides 114, 214, 314, and 414, respectively. These beveled edges 126, 128, 226, 228, 326, 338, 426 and 428 are equal sized and define equipment entry passages between the pallet top portions 104, 204, 304, and 404, respectively, and pallet bottom portions, 102, 202, 302, and 402, respectively, from all four pallet sides,
For all disclosed embodiments of the nylon pallet 100, 200, 300, and 400, when each bottom portion top side 108, 208, 308, and 408, respectively, array of upstanding nylon posts connects and locks with a corresponding top portion bottom side 112, 212, 312, and 412, respectively, array of four upstanding nylon posts a low profile, high weight capacity nylon pallet 100, 200, 300, and 400, is formed, the low profile, high weight capacity nylon pallet further comprising equipment entry passages between the nylon pallet top portion 104, 204, 304, and 404, respectively, and the nylon pallet bottom portion 102, 202, 302, and 402 from all four pallet sides, and real time tracking, identification, and monitoring capabilities,
The disclosed embodiments of the nylon pallets 100, 200, 300, and 400, including the pallet top portions 104, 204, 304, and 404, respectively, the pallet bottom portions 102, 202, 302, and 402, respectively, upstanding nylon post open ends 36, upstanding nylon posts with extended attachment clip 42, and locking pins 54, are manufactured from injection molded nylon consisting of post-consumer nylon, post-industrial nylon, and virgin nylon, all reinforced with glass.
The disclosed communication/sensor box 600, including the box bottom 602, the box top 604, the box side clip 606 are manufactured from injection molded nylon consisting of post-consumer nylon, post-industrial nylon, and virgin nylon, all reinforced with carbon black.
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