TECHNICAL FIELDThe present invention relates generally to shipping and storage containers and methods, and in particular, embodiments relate to collapsible containers that may be integrated into a motor carrier's current less than load operations without any additional equipment or disruption of service.
BACKGROUNDContainers are utilized by industry and consumers to ship freight from one location to another. Containers are also commonly used to store items for a length of time. Conventional containers, although effective when full of freight, become a source of lost revenue for a motor carrier when the container is empty because the space taken up by the empty container could be used by a full container or other freight. Similarly, in the case of residential or commercial use, an empty container undesirably takes up a great deal of space in a residential or commercial user's basement, attic, storage space, warehouse or other similar location. A user may desire to keep an empty container in his or her possession for future use but for the undesirable space the empty container requires.
Conventional containers are also difficult for a commercial or residential user to load and unload. The top-loading of a shipping container can be a harrowing experience, especially when the item to be shipped or stored is being loaded into a tall container. For example, the article may be accidentally dropped while it is being loaded into the container from the top. Additionally, articles positioned at the bottom of a full top-loaded container may be difficult, if not impossible, to locate or remove if the need arises.
Additionally, conventional containers are not easily integrated into a motor carrier's current less than load (“LTL”) operations. LTL freight, unlike full truckload freight, is collected from various shippers and consolidated onto a trailer. Non-uniformity of conventional container dimensions create inefficiencies in LTL linehaul operations by causing large gaps of dead space in between freight and containers. Similarly, conventional shipping containers are not dimensioned to fit in trailers with overhead, roll-up doors.
Accordingly, a shipping and storing container that takes up minimum space when empty, is easily loaded and unloaded, and integrates into LTL operations is desired.
SUMMARYAccording to one embodiment, a collapsible container is provided. The collapsible container includes a base, a pair of first opposing walls, each first opposing wall comprising a top edge, two side edges and a bottom edge, a pair of second opposing walls, each second opposing wall comprising a top edge, two side edges and a bottom edge, a top panel removably attached to the top edge of the pairs of first and second opposing walls and a plurality of engaging devices positioned along the perimeter of the base and along the two side edges and bottom edge of the pairs of first and second opposing walls. The plurality of engaging devices are configured to removably connect the pair of first opposing walls to the pair of second opposing walls and to removably connect the pairs of first and second opposing walls to the base. Further, the collapsible container is dimensioned to integrate into less than truck load operations.
According to another embodiment, a collapsible container is provided. The collapsible container includes a pair of first opposing walls, each first opposing wall including a top edge, a bottom edge comprising a plurality of bottom male fastening components, and two side edges including a plurality of side male fastening components. The collapsible container also includes a pair of second opposing walls, each second opposing wall including a top edge, a bottom edge comprising a plurality of bottom male fastening components, and two side edges comprising a plurality of side female fastening components configured to accept the plurality of side male fastening components. A base including a plurality of base female fastening components along a perimeter of the base, the plurality of base female fastening components configured to accept the plurality of bottom male fastening components of the pairs of first and second opposing walls and a top panel configured to removably attach to the top edge of the pairs of first and second opposing walls are also included. When the collapsible container is in an erected position, the collapsible container is a receptacle dimensioned to integrate into less than truck load operations.
According to yet another embodiment, a collapsible container includes a pair of first opposing walls, each first opposing wall including a plurality of engaging hooks positioned outwardly along two opposing edges, a plurality of first engaging tabs positioned outwardly along an edge adjacent to the two opposing edges, a substantially flat edge and an exterior face comprising a graphic. The collapsible container also includes a pair of second opposing walls, each second opposing wall including a plurality of slots positioned along two opposing edges configured to accept the plurality of engaging hooks of the pair of first opposing walls, a plurality of second engaging tabs positioned outwardly along an edge adjacent to the two opposing edges, a substantially flat edge, and an exterior face comprising a graphic. The collapsible container also includes a base comprising a plurality of base slots that are sized and positioned to accept the first and second engaging tabs of the respective pairs of first and second opposing walls to form a receptacle and a top panel configured to removably attach to the substantially flat edge of the pairs of first and second opposing walls. The collapsible container is dimensioned to integrate into less than truck load operations.
BRIEF DESCRIPTION OF THE DRAWINGSThe following detailed description will be more fully understood in view of the drawings in which:
FIG. 1 is a perspective view of a collapsible container with one side removed according to one or more embodiments of the present invention.
FIG. 2 is an exploded view of a collapsible container according to one or more embodiments of the present invention.
FIG. 3A is a front view of a first and second opposing wall of a collapsible container according to one or more embodiments of the present invention.
FIG. 3B is a top view of a base and a bottom view of a top panel of a collapsible container according to one or more embodiments of the present invention.
FIG. 4A is a front view of a first and second opposing wall of a collapsible container according to one or more embodiments of the present invention.
FIG. 4B is a top view of a base of a collapsible container according to one or more embodiments of the present invention.
FIG. 4C is a bottom view of a top panel of a collapsible container according to one or more embodiments of the present invention.
FIG. 4D is a side view of a top panel of a collapsible container according to one or more embodiments of the present invention.
FIG. 5A is a perspective view of a first opposing wall being inserted into a base of a collapsible container according to one or more embodiments of the present invention.
FIG. 5B is a perspective view of a second opposing wall being inserted into a base of a collapsible container according to one or more embodiments of the present invention.
FIG. 5C is a close up perspective view of a collapsible container according to one or more embodiments of the present invention.
FIG. 5D is a front view of a collapsible container covered with a tarp according to one or more embodiments of the present invention.
The embodiments set forth in the drawings are illustrative in nature and are not intended to be limiting of the invention defined by the claims. Moreover, individual features of the drawings and the invention will be more fully apparent and understood in view of the detailed description.
DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTSIn one embodiment, a collapsible storage and shipping container is provided. According to the embodiment, the container may be used for both commercial and residential shipping and storing applications. The container, which may be made of a plastic material such as natural HDPE, for example, is designed and dimensioned to allow a motor carrier to integrate pickup and delivery of the container into the motor carrier's current less than load (LTL) operations without any additional equipment or disruption of service. For example, according to some embodiments, the container may be loaded and unloaded at a dock or with a liftgate on the trailer so the user or carrier is not required to provide equipment such as a forklift or flatbed trailer. As described herein below, embodiments are dimensioned such that they are easily integrated current LTL operations. Dimensioning of the containers ensures that space is not wasted within the trailer by minimizing gaps caused by oddly-dimensioned freight and containers. According to some embodiments, the container will fit in all linehaul trailers, including, as an example and not a limitation, curtain side linehaul trailers, trailers with overhead roll-up doors and other types of linehaul trailers. Embodiments are also dimensioned to allow the shipping and storage of oversized items, such as couches, other large furniture, machines or equipment. The container may be custom-sized to suit the user's shipping and storage needs.
The container is fully collapsible to provide efficient storage and/or transport of the container when the container is empty, as well as provide increased loading and unloading flexibility for the user. According to some embodiments, engaging tabs and hooks are configured to be inserted into mating slots for easy assembly and collapsibility of the container. The container of this embodiment may be assembled and disassembled without the use of, or need for, tools. Because the container is collapsible, it may be collapsed during transport when the container is empty, thereby decreasing the required volume of the container within the linehaul trailer. This significantly increases the load capacity of the trailer, which frees up the motor carrier to load the trailer with more freight. Likewise, the user may collapse the container when he or she is not presently using the container, thereby taking up less space within the storage area. The collapsibility also allows for increased loading and unloading flexibility. As an example, the freight to be loaded into the container for shipping and/or storage may be placed on the base of the container before the attachment of the sides and top panel. A user may choose to remove just the top panel of the container when unloading an item from the container, or he or she may additionally remove one or more sides to unload items that are difficult to access from the container.
Embodiments may also comprise additional features. Freight securing mechanisms may be provided on the interior surface of the base according to some embodiments. The freight securing mechanisms allow freight to be tied down or secured to the base of the container, thus preventing damage to the freight during transport. Other embodiments may also include a tarp that covers the container for all-weather protection when the container is subject to the elements. Because conventional containers may be unsightly, residential and commercial users may be reluctant to store items in a container in the exterior of their home or place of business where the container may be seen from the road, sidewalk or other public vantage point. However, exterior storage may be desirable where the user does not have adequate interior storage space, does not wish the store the item indoors, or for other reasons. Therefore, according to some embodiments, the exterior of the container may comprise an aesthetically pleasing design. As an example and not a limitation, the design may include a playhouse, club house, fence, landscape scene, or any other pleasing design to disguise the container.
As shown in the illustrated embodiment ofFIGS. 1 and 2, a collapsible shipping and storage container10 is provided. The embodiment illustrated inFIGS. 1 and 2 is of a square geometry (e.g., 48″×48″×48″ among others). As described and illustrated herein, other geometries and sizes that integrate into LTL operations are also provided. The container comprises abase16, a pair of first opposingwalls12, a pair of second opposingwalls12 and atop panel18 that are configured to easily attach to one another to form the collapsible container10 without the use of tools. Thebase16 and the opposingwalls12,14 comprise engaging devices that are configured to interlock thebase16 and the opposingwalls12,14 to each other.
According to the embodiment ofFIGS. 1 and 2, the engaging devices comprise a plurality of male fastening components (e.g.,20,24 and26) and a plurality of female fastening components (e.g.,21,25 and27). More particularly, the male fastening components may include a plurality of engaging hooks20 (e.g., three on each side of the first opposingwalls12 in this embodiment) and engagingtabs24,26, and the female fastening components may comprise a plurality ofslots21,25,27. The engaging hooks20 of the illustrated embodiment are located along two opposing sides of the pair of first opposingwalls12. It is contemplated that the engaginghooks20 may also be provided along two sides of the pair of second opposingwalls14. The engaging hooks20 are configured to be inserted and secured to matchingslots21 provided along two opposing sides of the pair of second opposingwalls14. Other engaging device configurations are also possible. More specifically, rather than an fastening hook, an engaging tab with a hole or a notch configured for the insertion of a locking pin to fasten the walls together may also be employed.
Theslots25,27 located on thebase16 are configured to accept the correspondingengaging tabs24,26 of the pairs of first and second of opposingwalls12,14 (i.e.,slot25 is configured to accept engagingtab24 andslot27 is configured to accept engaging tab26). Theslots25,27 and engagingtabs24,26 are dimensioned such that the pairs of first and second opposingwalls12,14 may only be inserted in the correct position on the base. For example,slot25 and engagingtab24 may be of a length that is longer thanslot27 and engagingtab26 or visa versa. Similarly,slot25 and engagingtab24 may be of a width that is wider thanslot27 and engagingtab26 or visa versa. As is shown inFIG. 5A, thebase16 comprises support blocks30 that provide additional support for the container, as well as depth for theslots25,27 to accept theengaging tabs24,26. The depth of theslots25,27 increases the strength and rigidity of the container.
Referring again toFIGS. 1 and 2, thebase16 may contain support blocks30 as described above. The support blocks30 form gaps within thebase16 in which a forklift or other transporting device may be inserted to move the container10 to a specific location. The support blocks30 also ensure that the container10 is sufficiently raised from the ground to prevent water from entering the container10. According to some embodiments,freight securing mechanisms28 may be provided throughout the floor of thebase16. InFIGS. 1 and 2, thefreight securing mechanism28 are positioned along the perimeter of the floor of thebase16. Thefreight securing mechanism28 may be used to secure freight to the base and therefore container10 by running a strap, bungee cord, rope, twine or other similar device under the latch or ring of thefreight securing mechanism28 and around the freight (FIG. 5A). Many other freight securing mechanism configurations are possible.
Additional embodiments may comprisehandles22 that are located on each wall of thecontainer22. These handles22 may be attached to the opposingwalls12,14. Or, according to other embodiments and as illustrated inFIGS. 1 and 2, thehandles22 may be recesses that are formed into the plastic during the molding or formation of the opposingwalls12,14. Thehandles22 may be used to lift and carry the container10 from one location or another. Thehandles22 also aid in erecting and collapsing the container10, as well as assist in carrying and moving the opposingwalls12,14.
Thetop panel18 of the container10 is dimensioned such that there is an overhang above each opposingwall12,14. Under each overhang (i.e., around the perimeter of the underside of the top panel18) is avertical lip29 that enfolds thewalls12,14 when the container10 is assembled, as may be viewed in the embodiment illustrated inFIG. 1. Thevertical lip29 therefore secures thetop panel18 to the top portions of thewalls12,14 and ultimately, the container10.
As described above, the container10 may be designed and dimensioned in a number of sizes that allow the container10 to be integrated into LTL operations.FIGS. 3A and 3B illustrate an embodiment that is dimensioned as a rectangular container that is taller than the square embodiment ofFIGS. 1 and 2 (e.g., 48″×48″×75″). As an example, this embodiment may be useful for storing and/or transporting a refrigerator or other tall items. According to the embodiment ofFIGS. 3A and 3B, the opposingside walls12,14 have fourengaging hooks20 andslots21 along each side.FIGS. 4A-4C illustrate an embodiment in which the container10 has a geometry suitable for storing and transporting large, oversized items (e.g., 48″×90″×55″). For example, this embodiment may be utilized to transport bicycles, four-wheelers, dressers, and other relatively long items. The engagingtabs24a(FIG. 4A) and slots25aare relatively longer than the engagingtabs24 andslots25 provided in the embodiments illustrated inFIGS. 1 and 2 andFIGS. 3A and 3B. The increased length of theengaging tabs24aand slots25aincrease the stability of the container10. Referring toFIG. 4C, the top of the container10 is composed of threetop panel sections18a,18b, and18c. The three section embodiment allows for easy access to the container10 as only a small section needs to be removed to access items within the container10. Additionally, the threesections18a-18care easy for a single person to install and remove as the pieces are smaller and lighter than one large top panel. According to the embodiment, an interiorengaging lip29bmay be provided in addition to anexterior engaging lip29aalong portions of the threesections18a-18cto increase the stability of the container10. Some embodiments comprising the threetop sections18a-18cmay employ a notch fit to assemble the top18 onto the top of the container10. As illustrated inFIG. 4D,18bmay comprisenotch52 which is configured to rest uponcorresponding notches50 located on18aand18b. In this manner, all threesections18a-18cmay be securely attached to first and second opposingwalls12,14.
FIGS. 5A-5D illustrate a method of erecting a collapsible container10 according to one embodiment. Referring initially toFIG. 5A, thebase16 is placed on level surface. Freight may be placed on the base16 at this time, or any other time in the assembly process. Next, a first opposing wall12 (i.e., a wall having male engaging structures20) may be lifted by the handles22 (not shown) so that the engagingtabs24 are aligned with the engagingslots25. Thewall12 and engagingtabs24 are then pushed down into the engagingslots25. This is repeated for the other second opposingwall12.
Now referring toFIG. 5B, a second opposing wall14 (i.e., a wall having female engaging structures) may be lifted over the base16 such that the engagingtabs26 are aligned with theslots27 on thebase16, and the engaginghooks20 of the pair of first opposingwalls12 are aligned with theslots21 of the second opposingwall14. After positioning the second opposingwall14 into place, thewall14 is then pushed down so that the engagingtabs26 enter theslots27 and the engaginghooks20 ofwall12 grip and secure thewall14. This is repeated for the remaining second opposingwall14 havingslots21 such that all four opposingwalls12,14 are fitted and locked together to thebase16.
After the opposingwalls12,14 are in place and the freight has been loaded, thetop panel18 may be placed on the top portion of the opposingwalls12,14 and fit into place, as illustrated inFIG. 5C. Thevertical lip29 secures thetop panel18 to the opposingwalls12,14. The container10 is now fully assembled and ready for storage and/or transport. According to some embodiments, atarp40 may be fitted over the container to protect the container10 from the elements, including wind, rain, frost, snow and sun, for example (FIG. 5D). Thetarp40 may be secured to the container10 byflaps42. Theflaps42 may be secured byattachments44a,44bwhich may be Velcro, or a loop in which a hook or a clip may use to engageattachment44atoattachment44b, for example. The container10 may be collapsed by removing thetop panel18, then removing the pair of second opposingwalls14 and finally the pair of first opposingwalls12. Thebase16, opposingwalls12,14 andtop panel18 may then be stacked into a compact form for later use.
The foregoing description of the various embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise steps and/or forms disclosed. Many alternatives, modifications and variations will be apparent to those skilled in the art of the above teaching. Moreover, although multiple inventive aspects have been presented, such aspects need not be utilized in combination, and various combinations of inventive aspects are possible in light of the various embodiments provided above. Accordingly, the above description is intended to embrace all possible alternatives, modifications, combinations, and variations that have been discussed or suggested herein, as well as all others that fall with the principles, spirit and broad scope of the inventions as defined by the claims.