BULK MATERIAL SHIPPING CONTAINER UNLOADER

Abstract

A bulk material shipping container unloader having an expandable supporter, a pallet receiver supported by the extendable supporter, and a material director supported by the pallet receiver.

Claims

1. An unloader configured to support and facilitate unloading of a bulk material shipping container comprising: a container support including a plurality of upstanding legs, a rectangular frame with a upstanding leg connected at each corner thereof, a pallet receiver having a vertical pallet holding wall extending around the perimeter of the rectangular frame, a pallet support base extending inwardly from a bottom edge of the pallet holding wall for supporting the bulk material shipping container, and a plurality of nesting supports disposed on the pallet support base, wherein the pallet receiver is configured to receive a bottom portion of the bulk material shipping container such that the plurality of nesting supports distribute the weight of the bulk material shipping container to the upstanding leg at each corner; and a material director attached to the pallet receiver and supported by the container support, the material director having a plurality of material directing walls extending downwardly from an upper opening adjacent the pallet receiver forming a funnel-shaped chamber terminating at a lower opening, wherein the funnel-shaped chamber is configured to receive material from the bulk material shipping container supported by the bottom end receiver and direct the received material from the upper opening to the lower opening.

2. The unloader according to claim 1, wherein one of the plurality of material directing walls has a material unloading port formed therethrough defining the lower opening.

3. The bulk material shipping container unloader of claim 2, wherein the material unloading port is configured to direct the received material through the chamber and toward an area exterior to two of the upstanding legs of the container support.

4. The unloader according to claim 1, further comprising includes a nozzle connected to one of the plurality of material directing walls.

5. The unloader according to claim 1, wherein the container support further comprises a leg stabilizing frame extending between the plurality of upstanding legs below the material director.

6. The unloader of according to claim 1, wherein each of the plurality of upstanding legs comprises an expandable supporter having a leg section, a foot section telescopically received in the leg section and a locking member for holding the leg section and the foot section in a predetermined position for adjusting a height of the container support.

Description

DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a front perspective view of the bulk material shipping container unloader of one embodiment of the present disclosure, shown in a retracted position, and shown with a closure plate coupled to the material unloading port of the material director.

[0017] FIG. 2 is a front perspective view of the bulk material shipping container unloader of FIG. 1, shown in a retracted position and shown with an output nozzle coupled to the material unloading port of the material director.

[0018] FIG. 3 is a top rear perspective view of the bulk material shipping container unloader of FIG. 1, shown in a retracted position and shown with an open material unloading port of the material director.

[0019] FIG. 4 is an enlarged fragmentary perspective view of the material unloading port of the material director of the bulk material shipping container unloader of FIG. 1, and showing material flowing out through the material unloading port into a bin.

[0020] FIG. 5 is a top plan view of the bulk material shipping container unloader of FIG. 1.

[0021] FIG. 6 is a front perspective view of the bulk material shipping container unloader of FIG. 1, shown in an expanded position and shown supporting a bulk material shipping container.

[0022] FIG. 7 is a fragmentary front perspective view of the bulk material shipping container unloader of FIG. 1, shown supporting two stacked bulk material shipping containers.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

[0023] Referring now to the drawings, FIGS. 1 to 7 illustrate one example embodiment of the bulk material shipping container unloader of the present disclosure, which is generally indicated by numeral 50. This illustrated embodiment of the bulk material shipping container unloader 50 generally includes: (a) an expandable or extendable supporter 100; (b) a pallet receiver 200 supported by the expandable or extendable supporter 100; and (c) a material director 300 supported by the pallet receiver 200. Generally, the expandable supporter 100 is configured to support the pallet receiver 200 and the material director 300, the pallet receiver 200 is configured to support one or more bulk material shipping containers 400 and 500 (as shown in FIGS. 6 and 7), and the material director 300 is configured to hold and direct material exiting the bulk material shipping container to and through a material unloading port as further explained below. As mentioned above, for brevity, the bulk material shipping container unloader of the present disclosure is sometimes referred to as the shipping container unloader, the container unloader, the material unloader, or the unloader. It should also be appreciated that while this illustrated embodiment of the unloader is expandable, the bulk material shipping container unloader of the present disclosure does not have to be expandable.

[0024] In this illustrated embodiment, the expandable supporter 100 is movable from a retracted position (shown in FIGS. 1, 2, and 3) to one or more expanded positions (shown in FIG. 6) to change the height of the pallet receiver 200 and the material director 300. More specifically, the expandable or extendable supporter 100 includes: (a) expandable legs 102, 104, 106, and 108; (b) feet 112, 114, 116, and 118 respectively attached to the bottom of the legs 102, 104, 106, and 108; (c) leg stabilizers 120, 122, 124, 126, 128, and 130 attached to the legs 102, 104, 106, and 108; and (d) locking members 142, 144, 146, and 148 configured to respectively hold the legs 102, 104, 106, and 108 in the expanded and retracted positions.

[0025] In this illustrated embodiment, the expandable legs 102, 104, 106, and 108 each include telescoping upper and lower sections with alignable openings that provide for the expansion or height adjustment of the pallet receiver 200 and material director 300. The locking members 142, 144, 146, and 148 are configured to extend through the aligned openings to hold the legs 102, 104, 106, and 108 in the expanded and retracted positions. In this illustrated embodiment each locking member includes a J-pin (configured to be positioned though aligned openings) and a locking pin which holds the J-pin in place. The J-pins are made from as suitably strong material (such as steel) to support the weight of the containers placed on the unloader 50 when the unloader 50 is in the expanded position. It should be appreciated that other suitable locking members may be employed in accordance with the present disclosure.

[0026] In this illustrated embodiment, the legs 102, 104, 106, and 108 and the leg stabilizers 120, 122, 124, 126,128, and 130 are each made from a steel tubular material, and the leg stabilizers are welded to the upper sections of the legs 102, 104, 106, and 108 to provide a suitable support structure for the unloader 50. It should also be appreciated that the feet 112, 114, 116, and 118 are also made of steel and welded or otherwise suitably respectively attached to the legs 102, 104, 106, and 108 in this illustrated embodiment.

[0027] It should be appreciated that these components are made from steel to: (a) facilitate attachment or connection of these components by welding and/or suitable fasteners; (b) provide structural strength and rigidity; (c) facilitate ease of cleaning; (d) facilitate ease of repair; and (e) minimize overall weight of the unloader. However, it should be appreciated that in alternative embodiments, one or more of these components can be made from other suitably strong materials and can be attached in other suitable manners (besides welding).

[0028] The pallet receiver 200 is configured to receive and support a pallet of a bulk material shipping container (as generally shown in FIGS. 6 and 7). More specifically, the pallet receiver 200 includes: (a) pallet support bases 202, 204, 206, and 208; (b) pallet holding walls 212, 214, 216, and 218 respectively connected to and extending upwardly from the pallet support bases 202, 204, 206, and 208; (c) nesting or stacking guides 222, 224, 226, and 228 respectively connected to and extending upwardly from the corners of the pallet holding walls 212, 214, 216, and 218; and (d) nesting supports 232a, 232b, 234a, 234b, 236a, 236b, 238a and 238b, respectively connected to and extending upwardly from the pallet support bases 202, 204, 206, and 208.

[0029] In this illustrated embodiment, (a) the pallet support base 202 and the pallet holding wall 212; (b) the pallet support base 204 and the pallet holding wall 214; (c) the pallet support base 206 and the pallet holding wall 216; and (d) the pallet support base 208 and the pallet holding wall 218, are each made of steel, formed together, and respectively welded together at their corners. In this illustrated embodiment, the nesting or stacking guides 222, 224, 226, and 228 are also made of steel and welded to the corners of the pallet holding walls 212, 214, 216, and 218. In this illustrated embodiment, the nesting supports 232a, 232b, 234a, 234b, 236a, 236b, 238a, and 238b, are each made from a steel tube and welded to the pallet support bases 202, 204, 206, and 208.

[0030] It should be appreciated that these components are made from steel to: (a) facilitate attachment or connection of these components by welding and/or suitable fasteners; (b) provide structural strength and rigidity; (c) facilitate ease of cleaning; (d) facilitate ease of repair; and (e) minimize overall weight of the unloader. However, it should be appreciated that in alternative embodiments, one or more of these components can be made from other suitably strong materials and can be attached in other suitable manners (besides welding).

[0031] It should be appreciated that when a container sits on the unloader 50 as generally illustrated in FIGS. 6 and 7, the pallet of the container rests on the nesting supports 232a, 232b, 234a, 234b, 236a, 236b, 238a, and 238b, which are configured to support the pallet and specifically the legs or footing of the pallet of the container. The nesting supports direct the weight of the second or top container that sits on those nesting supports to the corners of the unloader and thus to the legs of the unloader. This prevents the weight of the container from damaging the walls of the unloader.

[0032] It should be appreciated that the unloader and the nesting or stacking guides are configured to assist the unloader and specifically the pallet receiver 200 to receive known bulk material containers (such as the known bulk material container described in the background section of this document and described below). It should be appreciated that the unloader of the present disclosure is configured such that a forklift can be employed to place a container on top of the unloader and to lift one container from the unloading assembly without damaging the unloader as further described below.

[0033] The material director 300 is supported by the pallet receiver 200 and is configured to direct material exiting the bulk material shipping container resting on the unloader to an exit area and specifically through a material unloading port 350. More specifically, material director 300 includes: (a) a front downwardly (e.g., vertically or substantially vertically) extending material directing wall 312 connected to the front pallet support base 202; (b) a rear downwardly slopping material directing wall 316 connected to the rear pallet support base 206; (c) a first downwardly (e.g., angled or sloped) extending side material directing wall 314 connected to the side pallet support base 204; (d) a second downwardly (e.g., angled or sloped) extending material directing side wall 318 connected to the side pallet support base 208; and (e) and a material unloading port 350 formed in the front material directing wall 312.

[0034] The material director 300 additionally includes one or more components that are configured to be coupled with the material unloading port 350. More specifically, the material unloading port 350 includes: (a) a section of the wall 312 which defines an opening 352; (b) a bottom guide or rail 362 positioned below the opening 352; (c) a first side guide or rail 364 positioned on one side of the opening 352; and (d) a second side guide or rail 366 positioned on the other side of the opening. The bottom guide or rail 362, the first side guide or rail 364, and the second side guide or rail 366 are connected to and extend outwardly from the wall 312 and are configured to receive and hold a plurality of different removable components that facilitate operation of the material unloading port 350 and the unloader 50. These components include: (a) a closure plate 380 which is configured to be received and held by the rails 362, 364 and 366 and close the opening 352 as shown in FIG. 1; and (b) a nozzle plate 382 which is configured to be received and held by the rails 362, 364 and 366 as shown in FIG. 2 and to provide a controlled flow (or controlled flow rate) of materials through the opening 352 of the material unloading port 350. It should be appreciated that the present disclosure also contemplates other components such as other nozzle plates with different size and shaped nozzles to regulate material flow or flow rate. It should also be appreciated that the closure plate can be removed, and no nozzle plate inserted to facilitate more rapid emptying of the materials through the opening 352 of the material unloading port 350 as generally illustrated in FIG. 4.

[0035] In this illustrated embodiment, (a) the front wall 312; (b) the rear wall 316; (c) the first side wall 314; and (d) the second side wall 318 are each made of steel and respectively welded together. In this illustrated embodiment, the rails 362, 364 and 366 are each made of steel and integrally formed from or welded to the front wall 312. In this illustrated embodiment, the closure plate 380 and the nozzle plate 382 are each made of steel. It should be appreciated that these components are made from steel to: (a) facilitate attachment or connection of these components by welding and/or suitable fasteners; (b) provide structural strength and rigidity; (c) facilitate ease of cleaning; (d) facilitate ease of repair; and (e) minimize overall weight of the unloader. However, it should be appreciated that in alternative embodiments, one or more of these components can be made from other suitably strong materials and can be attached in other suitable manners (besides welding).

[0036] Turning now specifically to FIGS. 6 and 7, this illustrated embodiment of the bulk material shipping container unloader 50 of the present disclosure is configured to hold one or more bulk material shipping containers 400 and 500 (such as those described in U.S. Patent Publication No. 2012/0103848 and U.S. Patent Publication No. 2012/0152798). In certain versions, these shipping containers have as an expanded position for holding materials during shipping and a retracted position for efficient shipping when the container is not holding materials or when the container is holding a smaller amount of materials. In certain versions, these shipping containers are not expanded or retractable.

[0037] Generally, as shown in these published patent applications, the expandable shipping containers each generally includes: (a) a pallet; (b) a bottom compartment; (c) a top compartment; (d) a plurality of top compartment support assemblies; (e) a material unloading assembly; (f) a material loading assembly; and (g) a top compartment extension assembly configured to enable a user to move the top compartment from the retracted position to the expanded position.

[0038] It should also be appreciated that the unloader of the present disclosure is configured to hold a shipping container that includes a bottom compartment having: (a) a bottom wall with a selectively openable suitable material release opening; and (b) a door or gate (with a handle) that is movable or slidable from a closed position to a plurality of different partially open positions, and then to a fully open position.

[0039] As mentioned above, the unloader of the present disclosure and specifically the pallet receiver 200 is configured to receive a pallet of a shipping container (as generally shown in FIGS. 6 and 7) and specifically configured to take in account that a lifting and moving vehicle such as fork lift will be used to lift and move the shipping container onto the unloader, and thereby provide sufficient spaces for the forks as generally illustrated in FIGS. 6 and 7. In other words, the pallet holding walls 212, 214, 216, and 218 are of a limited height to prevent interference with the fork lift tines which carry the container and place the container on the material unloader 50, regardless of the direction of the fork lift relative to the unloader 50 and the container.

[0040] The unloader of the present disclosure is configured to receive a shipping container pallet: (a) that includes a rectangular body having an upper surface, a lower surface, a front edge, a back edge, and opposite side edges; (b) that includes a plurality of legs extending downwardly from the body, where the legs each respectively extend the entire width of the body of the pallet, and where the legs extend downwardly from the central portions of the side ends of the body; and (c) where pallet includes or defines multiple sets of aligned fork lift tine receiving channels.

[0041] The unloader of the present disclosure is also configured to receive a shipping container pallet: (a) that includes a rectangular body having an upper surface, a lower surface, a front edge, a back edge, and opposite side edges; (b) a plurality of legs attached to and extending downwardly from the body; (c) a footing attached to and extending downwardly from each of the legs and having an upper surface, a lower surface, a front edge, a back edge, and opposite side edges; and (d) where pallet includes or defines multiple sets of aligned fork lift tine receiving channels, and the footing has a smaller rectangular footprint than the body and the legs to enable the pallet, and specifically legs of the pallet, to sit on the nesting supports of the unloading assembly.

[0042] It should thus be appreciated that the material unloader of the present disclosure and specifically the pallet receiver is configured to supports different pallets or pallets that have different configurations and thus different shipping or other containers.

[0043] In one embodiment, the unloader of the present disclosure is configured to hold an expandable bulk material shipping container having: (a) a pallet which is approximately 56 inches (142.24 centimeters) by approximately 44 inches (111.76 centimeters) by approximately 6 inches (15.24 centimeters); (b) a bottom compartment which is approximately 56 inches (142.24 centimeters) by approximately 44 inches (111.76 centimeters) by approximately 27 inches (68.58 centimeters); and (c) a top compartment which is approximately 56 inches (142.24 centimeters) by approximately 44 inches (111.76 centimeters) by approximately 27 inches (68.58 centimeters), wherein (d) the container in the retracted position is approximately 56 inches (142.24 centimeters) by approximately 44 inches (111.76 centimeters) by approximately 35 inches (88.90 centimeters); and (e) the container in the expanded position is approximately 56 inches (142.24 centimeters) by approximately 44 inches (111.76 centimeters) by approximately 62 inches (157.48 centimeters). However, it should be appreciated that the unloader of the present disclosure is configured to hold containers of other suitable sizes.

[0044] FIGS. 6 and 7 also illustrate that one or more shipping containers (such as containers 400 and 500) can be stacked on the unloader. Container 400 in FIG. 6 is shown having a bottom end 402, a first bottom corner leg 404, a second bottom corner leg 406, a third bottom corner leg 408, and a fourth bottom corner leg 410. Container 500 in FIG. 7 may be similar or identical to container 400. In FIG. 6, when the gate of the container 400 is opened, the material from the container 400 will flow into the material director 300 and out of the material unloading port 350. In FIG. 7, when the gate of the container 400 is opened, the material from the container 400 will flow into the material director 300 and out of the material unloading port 350, and additionally when the gate of the container 500 is opened, the material from the container 500 will flow into the container 400, and then into the material director 300 and out of the material unloading port 350.

[0045] It should be understood that modifications and variations may be affected 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.