1. Patent Search
  2. Details

Maintainable pallet

11242174 · 2022-02-08

    Inventors

    Cpc classification

    International classification

    Abstract

    In one embodiment, a maintainable pallet is provided with interchangeable support structures and sensors for identifying any damage that the interchangeable support structures may experience. The maintainable pallet may include two side supports, two end supports coupled to the two side supports end-to-end to form a rectangle, a central support position between the two side supports, a plurality of top transverse support fastened onto the two side supports to form a top loading surface and the central support with two-part releasable fasteners, and two bottom transverse supports fastened to the ends of the two side supports to form a bottom surface with two-part releasable fasteners. Sensors, in some embodiments, may be embedded in the two side supports to measure, for example, acceleration, location, or other logistic information. When a damaged piece is identified, the maintainable pallet can be disassembled by unfastening the two-part releasable fasteners to remove the damaged piece; and a new interchangeable piece will replace the damaged piece.

    Claims

    1. A method for maintaining a maintainable pallet, the method comprising: detecting a stress via a sensor embedded in the maintainable pallet, wherein the maintainable pallet comprises interchangeable parts fastened using releasable fasteners; and identifying one or more damaged pieces in the maintainable pallet based on the detected stress.

    2. The method of claim 1, further comprising: unfastening the releasable fasteners to remove the identified one or more damaged pieces; and replacing the removed one or more damaged pieces with one or more corresponding new pieces.

    3. The method of claim 1, wherein determining the stress further comprises determining an acceleration of the sensor embedded in the maintainable pallet.

    4. A maintainable pallet comprising: at least two side supports; at least two end supports coupled to the at least two side supports end-to-end to form a rectangle; a central support, wherein the central support is positioned between the at least two side supports, wherein the central support includes at least one member positioned adjacent a second member configured to provide an opening; a plurality of top transverse supports positioned at least partially above the at least two side supports and the central support to form a top loading surface and fastened at least partially with releasable fasteners; and at least two bottom transverse supports, wherein the at least two bottom transverse supports are positioned adjacent bottom ends of the at least two side supports to form a bottom surface and fastened at least partially with releasable fasteners.

    5. The maintainable pallet of claim 4, wherein the central support includes a plurality of recesses for receiving two or more of the plurality of top transverse supports, wherein the at least one member positioned adjacent the second member provide central mechanical support, wherein the opening is configured to receive one or more of the releasable fasteners to fasten one or more of the plurality of top transverse supports to the central support, and wherein the at least two bottom transverse supports are fastened to the central support with releasable fasteners.

    6. The maintainable pallet of claim 4, wherein the at least two side supports form an “M” shape in a side view, wherein the “M” shape is scaled to receive forks of forklifts.

    7. The maintainable pallet of claim 6, wherein the “M” shape of the at least two side supports further comprises a center leg, wherein at least one center transverse support is fastened to each of the center leg of the at least two side supports with releasable fasteners.

    8. The maintainable pallet of claim 7, wherein the at least two side supports, the central support, the plurality of top transverse supports, and the at least two bottom transverse supports all comprise composites made from biomass material embedded in a polymer matrix.

    9. The maintainable pallet of claim 8, wherein the composites have an aligned direction same as a length direction of the at least two side supports.

    10. The maintainable pallet of claim 4, wherein the central support has an “M” shaped side cross section and a center leg, and at least one center transverse support is fastened to the center leg of the central support with one or more releasable fasteners.

    11. The maintainable pallet of claim 4, wherein the at least two side supports, the at least two bottom transverse supports, and the at least two end supports further comprise chamfered edges for reducing resistance during insertion of forks of a forklift.

    12. The maintainable pallet of claim 4, wherein the releasable fasteners include one or more from the group consisting of nuts and bolts having tee nut inserts, and plain wood screws, but excluding nails.

    13. The maintainable pallet of claim 4, wherein the at least two side supports, the central support, the plurality of top transverse supports, and the at least two bottom transverse supports are configured to receive forks of a forklift from one end of the at least two side supports.

    14. The maintainable pallet of claim 4, further comprising one or more sensors embedded in one or more of the at least two side supports.

    15. The maintainable pallet of claim 14, wherein the one or more sensors include one or more of an accelerometer, a GPS, an inertial sensor, and an RFID.

    16. The maintainable pallet of claim 15, wherein the one or more sensors record data indicating structural integrity of the maintainable pallet and upon determining that a stress level has exceeded a predefined value, at least one of the at least two side supports, the central support, the plurality of top transverse supports, and the at least two bottom transverse supports is replaced with a same interchangeable part.

    17. A method for maintaining a maintainable pallet, the method comprising: detecting a stress via a sensor embedded in the maintainable pallet, wherein the maintainable pallet comprises interchangeable parts fastened using releasable fasteners; and identifying one or more damaged pieces in the maintainable pallet based on the detected stress, wherein the maintainable pallet comprises: at least two side supports; a central support positioned between the at least two side supports; a plurality of top transverse supports positioned at least partially on top of the at least two side supports and the central support to form a top loading surface and fastened at least partially with two-part releasable fasteners; and two bottom transverse supports positioned adjacent bottom ends of the at least two side supports to form a bottom surface and fastened at least partially with two-part releasable fasteners.

    18. The method of claim 17, further comprising: unfastening the releasable fasteners to remove the identified one or more damaged pieces; and replacing the removed one or more damaged pieces with one or more corresponding new pieces.

    19. The method of claim 17, wherein the sensor is embedded in one or more of the at least two side supports.

    20. The method of claim 17, wherein the detecting the stress via the sensor comprises collecting data corresponding to whether an acceleration of the maintainable pallet has exceeded a predefined value.

    Description

    BRIEF DESCRIPTION OF FIGURES

    (1) FIG. 1 is a perspective view of a maintainable pallet;

    (2) FIG. 2 is a top view of the maintainable pallet;

    (3) FIG. 3 is a right side view of the maintainable pallet, with the left side being a mirror image thereof;

    (4) FIG. 4 is a front view of the maintainable pallet, with the rear view being a mirror image thereof;

    (5) FIG. 5 is a local perspective view of the maintainable pallet showing details of sensor location and the coupling of interchangeable parts of the maintainable pallet;

    (6) FIG. 6 is a perspective bottom view showing examples of releasable fasteners;

    (7) FIG. 7 is a local cross section view of the maintainable pallet showing an example releasable fastener;

    (8) FIG. 8 is a flowchart illustrating a method for maintaining the maintainable pallet; and

    (9) FIG. 9 is a bottom view of the maintainable pallet.

    (10) Like elements are labeled using like numerals.

    DETAILED DESCRIPTION

    (11) FIG. 1 is a perspective view of a maintainable pallet 100 according to one embodiment. The maintainable pallet 100 includes two side supports 102, two front end supports 130, a central support 106 positioned between the two side supports 102, a plurality of top transverse supports 123, 125, and 127 fastened on or adjacent the two side supports 102 and the central support 105 to form a top loading surface 121 with releasable fasteners 120. There are two bottom transverse supports 140 fastened to the bottom ends of the two side supports 102 to form a bottom surface with releasable fasteners 120. The two bottom transverse supports 140 may be further fastened to the central support 106 with releasable fasteners 120.

    (12) The two side supports 102 and the two end supports 130 are coupled with each other end-to-end to form a rectangle, according to one implementation. In the example illustrated in FIG. 1, with further details shown in FIG. 5, the end-to-end coupling may be achieved using a plurality of box joints 305, 310, 315, and 320. As shown in FIG. 5, in some instances, the box joint 305, 310, 315, and 320 may further include spaces 505 for improving the assembly process.

    (13) Returning to FIG. 1, the maintainable pallet 100 further includes sensors 150 embedded in the two side supports 102. The sensors 105 include at least one of an accelerometer, a Global Positioning System (GPS), an inertial sensor, and an active and/or passive RFID tag. The sensors 150 record data, in one embodiment, indicating structural integrity of the maintainable pallet and upon determining that an acceleration or stress signal has exceeded a predefined value, at least one of the two side supports 102, the two end supports 130, the central support 106, the plurality of top transverse supports 123, 125, and 127, and the two bottom transverse supports 140 is replaced with a same or similar interchangeable part.

    (14) In some embodiments, an accelerometer or an inertial sensor enables the maintainable pallet 100 to report to a central data gathering system or communication station about the forces experienced during a particular shipment. The force history data can be used to assess any risks associated with shipping fragile items. In another embodiment, a GPS sensor 150 enables end users or the carrier to track a shipment carried on the maintainable pallet 100. In yet another embodiment, an identification sensor (RFID) may enable carriers or users to identify a bundle of shipment loaded on a particular pallet or for other logistic uses.

    (15) In some embodiments, the two side supports 102, the central support 106, the plurality of top transverse supports 123, 125, and 127, and the two bottom transverse supports 140 comprise composites made from biomass material embedded in a polymer matrix. For example, the composites may be corn-based structural composites that include a fibrous component of corn. In some embodiments, the composites include a structural polymeric composite having a polymer matrix and intact corn husks. The corn husks may be laminated using a polymer matrix of epoxy resin, phenol-formaldehyde, or a polyester, or using any other suitable binder.

    (16) The corn husks may have elongate fibers aligned with a first line along the length of each husk, and the corn husks are disposed in a corn husk layer such that the first lines of the corn husks are aligned in the corn husk layer. In some other embodiments, the corn husks may further have elongate fibers aligned with a first line along the length of each husk, and the corn husks are disposed in a corn husk layer such that the first lines of the corn husks are randomly oriented in the corn husk layer. The composites may have an aligned direction same as an length direction of the two side supports 102, the central support 106, the plurality of top transverse supports 123, 125, and 127, and the two bottom transverse supports 140.

    (17) In the present embodiment, the two side supports 102 and the central support 106 are shaped to receive the plurality of top transverse supports 123, 125, and 127 such that the two side supports 102 and the central support 106 are exposed to form the top loading surface 121.

    (18) Referring now to FIG. 2 and FIG. 9, respectively a top and a bottom view of the maintainable pallet 100. Each of the two side supports 102 comprises three layers of composite boards in this embodiment. The central support 106 comprises two layers of composite boards, in this embodiment. Each of the plurality of top supports 123, 125, and 127 comprises one layer of composite boards. In some embodiments, a center layer of the three layers of composite boards of the two side supports 102 is embedded with the sensor 150, or otherwise, an accelerometer, location sensor, a strain sensor, a transmitter, or a transceiver.

    (19) FIG. 3 is a side view of the maintainable pallet 100 according to one embodiment. In the side view, it has shown that the two side supports 102 forms an “M” shape, wherein the “M” shape may be scaled to receive forks of forklifts or other lifting or transportation equipment, such as pallet jack, front loader, work saver, or other jacking device. Each of the “M” shape of the two side supports 102 further comprises a center leg 133, wherein at least one center transverse support 142 is fastened to each of the center legs 133 of the two side supports 102 with releasable fasteners. The central support 106 may have the same “M” shaped side cross section and a center leg 133 as the two side supports 102. The at least one center transverse support 142 is also fastened to the center leg of the central support with releasable fasteners. The two side supports 102, the two end supports 130, the central support 106, the plurality of top transverse supports 123, 125, 127, and the two bottom transverse supports are configured to receive forks of a forklift from one end of the two side supports.

    (20) FIG. 4 is a front view of the maintainable pallet 100. As illustrated in FIGS. 3 and 4, the two side supports 102, the two bottom transverse supports 140, and the two end supports 130 further comprise chamfered edges 110 and 132, in certain embodiments, for reducing resistance during insertion of forks of a forklift. The two end supports 130 may have a similar “M” shaped profile as the two side supports 102 for receiving forks of a forklift or other cargo handling and transportation equipment.

    (21) FIG. 5 is a local perspective view of the maintainable pallet showing details of sensor location, in one embodiment, and the coupling of interchangeable parts of the maintainable pallet. In the present example, the releasable fasteners 120 include nuts and bolts having tee nut inserts. But in other examples plain wood screws may also be used.

    (22) FIG. 6 is a perspective bottom view showing examples of releasable fasteners 120. Releasable fastener 120 may include a bolt 610 and a nut 605 coupled via threads 612. The releasable fastener 120 may also be a plain screw 601 or similar wood screws used to fasten the plurality of top transverse pieces 123, 125, and 127. Other types of releasable or reusable fasteners 120 may be used in substitute for the illustrated screws.

    (23) FIG. 7 is a local cross section view of the maintainable pallet showing an example releasable fastener 120. The local cross section view shows that the nut 605 may further include teeth 704 that prevents the nut 605 from rotation during fastening. A washer 702 may also be included to distribute loads evenly and to allow for a higher tension applied to the bolt 610.

    (24) FIG. 8 is a flowchart illustrating a method 800 for maintaining the maintainable pallet. At 810, an acceleration or stress is detected via a sensor 150 embedded in the maintainable pallet 100. At 820, one or more damaged pieces in the maintainable pallet 100 is identified using the measurements taken with the sensor 150. In other embodiments, visual inspection may also identify the interchangeable pieces that require replacement. At 830, the releasable fasteners of the pallet 100 are unscrewed to remove the identified one or more damaged pieces. At 840, the removed one or more damaged pieces are replaced with corresponding new pieces.

    (25) The disclosure above provides enumerated examples. Other implementation and embodiments are possible within scopes of the following claims.