Patent Grant
11661235
Various bulk material shipping containers are known. Various known bulk material shipping containers are used to transport a wide range of products, parts, components, items, and other materials such as, but not limited to, seeds, shavings, fasteners, dry bulk, plastic resins, and granular materials (such as but not limited to cement or sand). These materials are generally referred to as loose materials herein.
There is a continuing need for better bulk material shipping containers for loose materials that are stronger than various known bulk material shipping containers, more durable than various known bulk material shipping containers, lighter than various known containers (that having similar loose material volume and weight capacities), easier to construct than various known bulk material shipping containers, configured to hold greater volumes of loose materials than various known bulk material shipping containers, configured to hold greater weights of loose materials than various known bulk material shipping containers, and configured to have a better weight to holding cargo capacity than various known bulk material shipping containers.
Various embodiments of the present disclosure provide a bulk material shipping container top wall assembly, and a bulk material shipping container including the top wall assembly, that provides various advantages over previously known commercially available bulk shipping material container top wall assemblies and bulk shipping material containers.
Various embodiments of the bulk material shipping container top wall assembly include: (1) a molded unitary (or one-piece) outer structure; and (2) a relatively lightweight and relatively strong inner reinforcing structure. The top wall assembly is configured to be mounted on and co-act with the other components of a bulk material shipping container to provide an inner chamber for holding loose materials.
Various embodiments of the bulk material shipping container of the present disclosure include: (1) a pallet; (2) a compartment connected to and supported by the pallet (such as via hopper supports), and which includes the top wall assembly; (3) a material unloading assembly connected to and supported by the pallet and positioned at a bottom portion of the compartment; and (4) a material loading assembly connected to and supported by the top wall assembly of the compartment.
In various embodiments, the bulk material shipping container with the top wall assembly is: (1) lighter than various known bulk material shipping containers; (2) stronger than various known bulk material shipping containers; (3) more durable than various known bulk material shipping containers; (4) configured to hold greater weights of loose materials than various known bulk material shipping containers; (5) configured to have a better weight to holding cargo capacity than various known bulk material shipping containers; (6) configured to better prevent leakage or water egress into the compartment than various known bulk material shipping containers; and (7) easier to assemble than various known bulk material shipping containers.
For purposes of brevity, (1) the bulk material shipping container of the present disclosure may sometimes be referred to herein as a material shipping container, a shipping container, or simply as a container; (2) a person who uses the container may sometimes be referred to herein as a “user” or an “operator”; (3) a person who loads loose materials in a container may sometimes be referred to herein as a “loader”; and (4) a person who removes the loose materials from a container may sometimes be referred to herein as an “unloader.”
Additional features and advantages of the present disclosure are described in and will be apparent from the following figures and Detailed Description of Exemplary Embodiments.
While the systems, devices, and methods described herein may be embodied in various forms, the drawings show and the specification describes certain exemplary and non-limiting embodiments. Not all of the components shown in the drawings and described in the specification may be required, and certain implementations may include additional, different, or fewer components. Variations in the arrangement and type of the components; the shapes, sizes, and materials of the components; and the manners of connections of the components may be made without departing from the spirit or scope of the claims. Unless otherwise indicated, any directions referred to in the specification reflect the orientations of the components shown in the corresponding drawings and do not limit the scope of the present disclosure. Further, terms that refer to mounting methods, such as mounted, connected, etc., are not intended to be limited to direct mounting methods but should be interpreted broadly to include indirect and operably mounted, connected, and like mounting methods. This specification is intended to be taken as a whole and interpreted in accordance with the principles of the present disclosure and as understood by one of ordinary skill in the art.
As further explained below, in various embodiments, the bulk material shipping container of the present disclosure provides an improved bulk material shipping container for loose materials that includes a compartment having a top wall assembly of the present disclosure that includes an outer unitary (or one-piece) top wall and a relatively lightweight relatively strong inner reinforcing structure and that is configured to co-act with the other components of the compartment. The top wall assembly enables the compartment and the overall shipping container to be: (1) lighter than various known bulk material shipping containers; (2) stronger than various known bulk material shipping containers; (3) more durable than various known bulk material shipping containers; (4) configured to hold greater weights of loose materials than various known bulk material shipping containers; (5) configured to have a better weight to holding cargo capacity than various known bulk material shipping containers; (6) configured to better prevent leakage or water egress into the compartment than various known bulk material shipping containers; and (7) easier to assemble than various known bulk material shipping containers.
Referring now to the drawings,
Generally, as shown in
More specifically, in this example embodiment of the shipping container 50 of the present disclosure, the pallet 100 is configured to be lifted by a lifting vehicle such as a forklift truck to lift, move, and position or place the container 50 when the container 50 is: (a) manufactured; (b) transported to a material loading facility; (c) at a material loading facility; (d) moved and positioned in or on a transport vehicle at the material loading facility after loading loose materials in the container 50; (e) removed from a transport vehicle at a material unloading facility or storage facility; (f) at a container unloading facility or site or at a storage facility; (g) moved and positioned in or on a material unloading device for storage or emptying or another container at the material unloading facility for storage or emptying; (h) moved into another position or another location for customer storage, use, or emptying; and/or (i) moved and positioned in or on a transport vehicle at the material unloading facility after unloading the materials from the container 50. The container 50 and specifically the pallet 100 of the container 50 is configured to account for the use of forklift trucks that can engage the pallet 100 to: (1) lift the container 50; (2) move the container 50; (3) stack the container 50 on top of another container 50 or other device; (4) un-stack a stacked container 50 from another container 50 or other device; and (5) place the container 50 on a material unloading device (such as one of the example material unloading devices shown in U.S. Pat. No. 9,650,216 or U.S. Published Patent Application No. 2018/0002120). Example pallets for the containers of the present disclosure are described in U.S. Pat. No. 8,887,914 and U.S. Published Patent Application No. 2018/0002066, which are incorporated herein by reference. It should be appreciated that the pallet may be in other suitable forms in accordance with the present disclosure. Thus, the pallet 100 is not described in further detail herein for brevity.
The example material unloading assembly 800 of the bulk material shipping container 50 of the present disclosure is indicated by numeral 800 but not fully illustrated in
Various parts of the illustrated example compartment 200 of the shipping container 50 of the present disclosure are generally illustrated in
As best shown in more detail in
The outer structure 310 of the top wall assembly 300 includes a horizontally or substantially horizontally extending base 320 including: (1) an inner section 330; (2) a reinforced central section 350 surrounding the inner section 330 and defining the interior cavity 602 between a first (top) wall 350t and a second (bottom) wall 350b; and (3) an outer section 370 surrounding the central section 350. The outer structure 310 of the top wall assembly 300 includes: (1) four somewhat L-shaped partially raised corner sections 400, 420, 440, and 460 extending from the four respective corners of the outer section 370; and (2) four outer lips 480, 482, 484, and 486 extending downwardly from the four respective outer panels of the outer section 370.
More specifically, the inner section 330 of the outer structure 310 of the top wall assembly 300 includes: (1) a front panel 332; (2) a rear panel 336 spaced apart from the front panel 332; (3) a first side panel 334 connecting the front panel 332 and the rear panel 336; (4) a second side panel 338 connecting the front panel 332 and the rear panel 336 and spaced apart from the first side panel 334; and (5) an inner lip 340 that is connected to and that extends upwardly from the front panel 332, the rear panel 336, the first side panel 334, and the second side panel 338. Each of the front panel 332, the rear panel 336, the first side panel 334, and the second side panel 338 have respective top and bottom surfaces (not labeled). The inner lip 340 defines a central material loading opening 340a for the compartment 200 of the container 50, and includes: (1) a front wall 342; (2) a rear wall 346 spaced apart from the front wall 342; (3) a first side wall 344 connecting the front wall 342 and the rear wall 346; and (4) a second side wall 348 connecting the front wall 342 and the rear wall 346 and spaced apart from the first side wall 344. The upwardly extending inner lip 340 is configured to be engaged by and sealed by the hatch assembly 910 of the material loading assembly 900 described below. The top wall assembly 300 thus defines a rectangular material receipt or loading opening 340a that enables loose materials to flow into the compartment 200 when the hatch assembly 910 of the material loading assembly 900 is opened.
The central reinforced section 350 of the outer structure 310 of the top wall assembly 300 includes: (1) a front panel 352; (2) a rear panel 356 spaced apart from the front panel 352; (3) a first side panel 354 connecting the front panel 352 and the rear panel 356; and (4) a second side panel 358 connecting the front panel 352 and the rear panel 356 and spaced apart from the first side panel 354. The front panel 352 extends from the front panel 332, the rear panel 356 extends from the rear panel 336, the first side panel 334 extends from the first side panel 334, and the second side panel 358 extends from the second side panel 338 such that the front panel 352, the rear panel 356, the first side panel 354, and the second side panel 358 surrounds the inner section 330 and specifically respectively surrounds the front panel 332, the rear panel 336, the first side panel 334, and the second side panel 338. Each of the front panel 352, the rear panel 356, the first side panel 354, and the second side panel 358 have respective top and bottom walls collectively referred to as first (top) wall 350t and second (bottom) wall 350b.
In this illustrated example embodiment, the front panel 352, the rear panel 356, the first side panel 354, and the second side panel 358 are reinforced by a plurality of suitable inner reinforcing members 600 diagrammatically shown in
The outer section 370 of the outer structure 310 of the top wall assembly 300 includes: (1) a front panel 372; (2) a rear panel 376 spaced apart from the front panel 372; (3) a first side panel 374 connecting the front panel 372 and the rear panel 376; and (4) a second side panel 378 connecting the front panel 372 and the rear panel 376 and spaced apart from the first side panel 374. The front panel 372 extends from the front panel 352, the rear panel 376 extends from the rear panel 356, the first side panel 374 extends from the first side panel 354, and the second side panel 378 extends from the second side panel 358 such that the front panel 372, the rear panel 376, the first side panel 374, and the second side panel 378 surrounds the inner section 350 and more specifically respectively surround the front panel 352, the rear panel 356, the first side panel 354, and the second side panel 358. Each of the front panel 372, the rear panel 376, the first side panel 374, and the second side panel 378 have respective top and bottom surfaces (not labeled).
The four somewhat L-shaped partially raised corner sections 400, 420, 440, and 460 of the outer structure 310 of the top wall assembly 300 are identical in this illustrated example embodiment.
Corner section 400 includes: (1) first and second upwardly and outwardly extending inner walls 402 and 404 connected by a curved inner wall 403; (2) first and second outwardly extending top walls 406 and 408 connected by a curved top wall 407; (3) first and second downwardly extending outer walls 410 and 412 connected by a downwardly extending curved outer wall 411; and (4) first and second downwardly extending end walls 414 and 416. Each of the upwardly and outwardly extending inner walls 402, 403 and 404, the outwardly extending top walls 406, 407 and 408, the downwardly extending outer walls 410, 411 and 412 have top and bottom surfaces (not labeled). The first and second downwardly extending end walls 414 and 416 have inner and outer surfaces (not labeled).
The first inner wall 402 is connected to the outer section 370, the first top wall 406 is connected to the first inner wall 402, and the first outer wall 410 is connected to the first top wall 406. The second inner wall 404 is connected to the outer section 370, the second top wall 408 is connected to the second inner wall 404, and the second outer wall 412 is connected to the second top wall 408. The curved inner wall 403 is connected to the outer section 370, the curved top wall 407 is connected to the curved inner wall 403, and the curved outer wall 411 is connected to the curved top wall 407. The first end wall 414 is connected to the first inner wall 402, the first top wall 406, and the first outer wall 410. The second end wall 416 is connected to the second inner wall 404, the second top wall 408, and the second outer wall 412. Each of these walls includes respective inner and outer surfaces (not labeled). Each of these walls co-act to form the corner section 402 such that the corner section 402 is configured to be mounted to and supported by the first upright corner assembly 212.
Likewise, corner section 420 includes: (1) first and second upwardly and outwardly extending inner walls 422 and 424 connected by a curved inner wall 423; (2) first and second outwardly extending top walls 426 and 428 connected by a curved top wall 427; (3) first and second downwardly extending outer walls 430 and 432 connected by a downwardly extending curved outer wall 431; and (4) first and second downwardly extending end walls 434 and 436. Each of the upwardly and outwardly extending inner walls 422, 423 and 424, the outwardly extending top walls 426, 427 and 428, the downwardly extending outer walls 430 and 432 have top and bottom surfaces (not labeled). The downwardly extending end walls 434, 435 and 436 have inner and outer surfaces (not labeled).
The first inner wall 422 is connected to the outer section 370, the first top wall 426 is connected to the first inner wall 422, and the first outer wall 430 is connected to the first top wall 426. The second inner wall 424 is connected to the outer section 370, the second top wall 428 is connected to the second inner wall 424, and the second outer wall 432 is connected to the second top wall 428. The curved inner wall 423 is connected to the outer section 370, the curved top wall 427 is connected to the curved inner wall 423, and the curved outer wall 431 is connected to the curved top wall 427. The first end wall 434 is connected to the first inner wall 422, the first top wall 426, and the first outer wall 430. The second end wall 436 is connected to the second inner wall 424, the second top wall 428, and the second outer wall 432. Each of these walls includes respective inner and outer surfaces (not labeled). Each of these walls co-act to form the corner section 420 such that the corner section 420 is configured to be mounted on and supported by the second upright corner assembly 214.
Likewise, corner section 440 includes: (1) first and second upwardly and outwardly extending inner walls 442 and 444 connected by a curved inner wall 443; (2) first and second outwardly extending top walls 446 and 448 connected by a curved top wall 447; (3) first and second downwardly extending outer walls 450 and 452 connected by a downwardly extending curved outer wall 451; and (4) first and second downwardly extending end walls 454 and 456. Each of the upwardly and outwardly extending inner walls 452, 453 and 454, the outwardly extending top walls 456, 457 and 458, the downwardly extending outer walls 460 and 462 have top and bottom surfaces (not labeled). The downwardly extending end walls 454, 455 and 456 have inner and outer surfaces (not labeled).
The first inner wall 442 is connected to the outer section 370, the first top wall 446 is connected to the first inner wall 442, and the first outer wall 450 is connected to the first top wall 446. The second inner wall 444 is connected to the outer section 370, the second top wall 448 is connected to the second inner wall 444, and the second outer wall 452 is connected to the second top wall 448. The curved inner wall 443 is connected to the outer section 370, the curved top wall 447 is connected to the curved inner wall 443, and the curved outer wall 451 is connected to the curved top wall 447. The first end wall 454 is connected to the first inner wall 442, the first top wall 446, and the first outer wall 450. The second end wall 456 is connected to the second inner wall 444, the second top wall 448, and the second outer wall 452. Each of these walls includes respective inner and outer surfaces (not labeled). Each of these walls co-act to form the corner section 440 such that the corner section 440 is configured to be mounted on and supported by the third upright corner assembly 216.
Likewise, corner section 460 includes: (1) first and second upwardly and outwardly extending inner walls 462 and 464 connected by a curved inner wall 463; (2) first and second outwardly extending top walls 466 and 468 connected by a curved top wall 467; (3) first and second downwardly extending outer walls 470 and 472 connected by a downwardly extending curved outer wall 471; and (4) first and second downwardly extending end walls 474 and 476. Each of the upwardly and outwardly extending inner walls 472, 473 and 474, the outwardly extending top walls 476, 477 and 478, the downwardly extending outer walls 480, 481 and 482 have top and bottom surfaces (not labeled). The first and second downwardly extending end walls 484 and 486 have inner and outer surfaces (not labeled).
The first inner wall 462 is connected to the outer section 370, the first top wall 466 is connected to the first inner wall 462, and the first outer wall 470 is connected to the first top wall 466. The second inner wall 464 is connected to the outer section 370, the second top wall 468 is connected to the second inner wall 464, and the second outer wall 472 is connected to the second top wall 468. The curved inner wall 463 is connected to the outer section 370, the curved top wall 467 is connected to the curved inner wall 463, and the curved outer wall 471 is connected to the curved top wall 467. The first end wall 474 is connected to the first inner wall 462, the first top wall 466, and the first outer wall 470. The second end wall 446 is connected to the second inner wall 444, the second top wall 448, and the second outer wall 472. Each of these walls includes respective inner and outer surfaces (not labeled). Each of these walls co-act to form the corner section 460 such that the corner section 460 is configured to be mounted on and supported by the fourth upright corner assembly 418.
Each of the corner sections 400, 420, 440, and 460 are configured to: (1) direct water (such as from precipitation) away from the corner and off of the container 100; (2) prevent water (and other contaminants) from entering the compartment; (3) provide for easier, simpler, and quicker attachment of the top wall assembly to the rest of the container; and (4) add strength and rigidity to the corner sections of the compartment and the entire container.
The four downwardly extending outer lips 482, 484, 486, and 488 of the outer structure 310 of the top wall assembly 300 are connected to the outer section 370 of the outer structure 310. More specifically, (1) outer lip 482 is connected to and extends downwardly from the front panel 372; (2) outer lip 486 is connected to and extends downwardly from rear panel 376; (3) outer lip 484 is connected to and extends downwardly from first side panel 374; and (4) outer lip 488 is connected to and extends downwardly from second side panel 378.
Each of the four downwardly extending outer lips 480, 482, 484, and 486 are configured to: (1) prevent water from entering the compartment; and (2) provide for easier, simpler, and quicker attachment of the top wall assembly to the rest of the container. Specifically, for attachment purposes, suitable holes are formed in each of the outer lips 480, 482, 484, and 486, and suitable fasteners (such as nuts, washers, and bolts) are employed to attached each of the respective outer lips 480, 482, 484, and 486 to respective top wall assembly supporters (not shown).
In this illustrated embodiment, the top wall 310 of the top wall assembly 300 (besides the inner reinforcing structure) is made of fiberglass to: (1) provide a relatively light-weight top wall; (2) facilitate ease of attachment or connection to the rest of the compartment of the container; (3) provide structural strength and rigidity; (4) facilitate ease of cleaning; (5) prevent rusting; (6) minimize overall weight of the container; and (7) prevent contamination. However, it should be appreciated that in alternative embodiments, one or more of these components can be made from other suitable materials and connected in any suitable manner.
The material loading assembly 900 of this illustrated example embodiment of the shipping container 50 of the present disclosure is generally illustrated in
In this illustrated example embodiment, the hatch assembly 910 includes a top wall (not labeled), a front wall (not labeled) connected to and extending downwardly from the top wall, a back wall (not labeled) connected to and extending downwardly from the top wall, a right side wall (not labeled) connected to and extending downwardly from the top wall, and a left side wall (not labeled) connected to and extending downwardly from the top wall. In this illustrated example embodiment, the hatch movement and locking assembly 950 includes a first hinge assembly (not labeled), a second hinge assembly (not labeled), a third hinge assembly (not labeled), and a locking assembly (not labeled). In this illustrated example embodiment, the first, second and third hinge assemblies are suitably connected to the top wall 310 and the top wall site hatch assembly 910. In this illustrated embodiment, the configuration, arrangement, and attachment of the hatch assembly 910 and the hatch movement and locking assembly 950 provide material contamination prevention and secure access to the compartment 200.
It should be appreciated that any suitable locking mechanism (not shown) may be employed in accordance with the present disclosure to lock the material loading assembly.
It should further be appreciated that the top wall assembly of the present disclosure can be suitably coated (such as by painting with a clear or colored protective coating). It should be appreciated that such coating may include a UV protective agent.
It should also be appreciated that one or more suitable vents (not shown) can be formed in or attached to the top wall assembly in accordance with the present disclosure.
It should be appreciated that the present disclosure contemplates the elimination or reduction of sharp edges in the compartment and that any sharp edges can be curved or formed with a suitable radius.
It should also be appreciated that the present disclosure contemplates the use of foam, tape, or other materials in connection with the corner assemblies for sealing purposes.
It should be appreciated from the above, that various embodiments of the present disclosure provide a bulk material shipping container comprising: a compartment including a top wall assembly, the top wall assembly including a molded unitary outer structure and an inner reinforcing structure; a material loading assembly connected to and supported by the top wall assembly; and a material unloading assembly at a bottom portion of the compartment. In various such embodiments, the top wall assembly mates with a first upper corner assembly, a second upper corner assembly, a third upper corner assembly, and a fourth upper corner assembly of the compartment. In various such embodiments, the outer structure includes an inner section, a central section surrounding the inner section and defining an interior cavity in which the inner reinforcing structure is positioned, and an outer section surrounding the central section. In various such embodiments, the outer structure includes four somewhat L-shaped partially raised corner sections extending from four respective corners of the outer section. In various such embodiments, the outer structure includes four outer lips extending downwardly from the outer section. In various such embodiments, the inner reinforcing structure includes wood. In various such embodiments, the inner reinforcing structure includes balsa wood.
It should also be appreciated from the above, that various embodiments of the present disclosure provide a bulk material shipping container comprising: a compartment including a top wall assembly, the top wall assembly including a molded unitary outer structure and an inner reinforcing structure, the top wall assembly mating with a first upper corner assembly, a second upper corner assembly, a third upper corner assembly, and a fourth upper corner assembly of the compartment, the outer structure including an inner section, a central section surrounding the inner section and defining an interior cavity in which the inner reinforcing structure is positioned, and an outer section surrounding the central section, the outer structure including four somewhat L-shaped partially raised corner sections extending from four respective corners of the outer section, the outer structure including four outer lips extending downwardly from the outer section; a material loading assembly connected to and supported by the top wall assembly; and a material unloading assembly at a bottom portion of the compartment. In various such embodiments, the inner reinforcing structure includes wood. In various such embodiments, the inner reinforcing structure includes balsa wood.
It should also be appreciated from the above, that various embodiments of the present disclosure provide a bulk material shipping container top wall assembly comprising: a molded unitary outer structure; and an inner reinforcing structure. In various such embodiments, the outer structure is configured to mate with a first upper corner assembly, a second upper corner assembly, a third upper corner assembly, and a fourth upper corner assembly of a compartment of a bulk material shipping container. In various such embodiments, the outer structure includes an inner section, a central section surrounding the inner section and defining an interior cavity in which the inner reinforcing structure is positioned, and an outer section surrounding the central section. In various such embodiments, the outer structure includes four somewhat L-shaped partially raised corner sections extending from four respective corners of the outer section. In various such embodiments, the outer structure includes four outer lips extending downwardly from the outer section. In various such embodiments, the inner reinforcing structure includes wood. In various such embodiments, the inner reinforcing structure includes balsa wood.
It should also be appreciated from the above, that various embodiments of the present disclosure provide a bulk material shipping container top wall assembly comprising: a molded unitary outer structure including an inner section, a central section surrounding the inner section and defining an interior cavity, and an outer section surrounding the central section, the outer structure including four somewhat L-shaped partially raised corner sections extending from four respective corners of the outer section, the outer structure including four outer lips extending downwardly from the outer section; and an inner reinforcing structure positioned in the interior cavity. In various such embodiments, the inner reinforcing structure includes wood. In various such embodiments, the inner reinforcing structure includes balsa wood.
It should be understood that modifications and variations may be effected without departing from the scope of the novel concepts of the present disclosure, and it should be understood that this application is to be limited only by the scope of the appended claims.
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