Various bulk material shipping containers are known. Various known material bulk 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 are sometimes called loose materials.
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 bulk material shipping containers (having similar weight capacities), easier to repair than various known bulk material shipping containers, easier to construct and reconstruct than various known bulk material shipping containers, configured to better prevent contamination of the loose materials, 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 that provides various advantages over previously known commercially available bulk shipping material containers.
Various embodiments of the bulk material shipping container of the present disclosure each include: (1) a pallet; (2) a compartment connected to and supported by the pallet; (3) a material unloading assembly positioned at and/or under a central bottom portion of the compartment and connected to and supported by the pallet; and (4) a material loading assembly connected to and supported by the top wall assembly of the compartment.
Various embodiments of the bulk material shipping container of the present disclosure include an improved material unloading assembly positioned at a bottom portion of the compartment and configured to facilitate the release or unloading of loose materials from the compartment. The improved material unloading assembly includes a gate assembly and a gate locking assembly that improve the functionality of the material unloading assembly, the compartment, and the container.
Various embodiments of the bulk material shipping container of the present disclosure include an improved compartment configured to hold the loose materials, and specifically include a top wall assembly, a top wall support assembly, and top corner assemblies that improve the functionality of the compartment and the container.
For purposes of brevity, 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. For purposes of brevity, a person who uses the container may sometimes be referred to herein as a “user” or an “operator”, a person who loads loose materials into a container may sometimes be referred to herein as a “loader,” and 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 invention are described in, and will be apparent from, the following Detailed Description of Exemplary Embodiments and the figures.
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.
Referring now to the drawings,
Generally, in this illustrated example embodiment, the shipping container 50 includes: (a) a pallet 100 (shown in
As further explained below, the bulk material shipping container of the present disclosure provides an improved bulk material shipping container for loose materials that is stronger than various known bulk material shipping containers, more durable than various known bulk material shipping containers, lighter than various known bulk material shipping containers having similar weight capacities, easier to repair than various known bulk material shipping containers, easier to construct and reconstruct than various known bulk material shipping containers, configured to better prevent contamination of the loose materials in the compartment, 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.
The bulk material shipping container of the present disclosure includes various improvements to the bulk material shipping containers described in U.S. Pat. No. 8,887,914 and U.S. Published Patent Application No. 2018/0002066 which are incorporated herein by reference.
More particularly, the bulk material shipping container of the present disclosure includes a new material unloading assembly, a new top wall assembly, a new top wall support assembly, and new top corner assemblies which are each described in detail herein. The pallet 100 and various parts of the compartment 500 are only very generally described herein for brevity; and it should be appreciated that the descriptions of the pallet 100 and the compartment 500 set forth in U.S. Published Patent Application No. 2018/0002066 are incorporated herein.
The pallet 100 of this illustrated example embodiment of the shipping container 50 of the present disclosure is illustrated in
As best shown in
The material unloading assembly 300 of this illustrated example embodiment of the shipping container 50 of the present disclosure is generally illustrated in
The gate assembly 350 is specifically configured to be in a closed and locked position (as shown in
In this illustrated embodiment, the configuration, arrangement, and attachment of the gate support assembly 310, the gate assembly 350, the gate locking assembly 400, and the material directors (not labeled) of the material unloading assembly 300 provide suitable material leakage prevention.
In this illustrated embodiment, the gate support assembly 310, the gate assembly 350, the gate locking assembly 400, and the material directors of the material unloading assembly 300 (except as set forth below) are all (or mostly) formed from a strong metal (such as steel) to provide suitable structural strength and rigidity. However, it should be appreciated that in alternative embodiments, the material unloading assembly 300 or one or more parts thereof can be made from other suitably strong materials (such as wood, plastic, or composite or fiber glass materials).
In this illustrated embodiment, the gate assembly 350 includes a gate 351 having a substantially flat generally rectangular closure member 352 and a downwardly extending front end member 355 integrally connected to a front end of the closure member 352. The gate 351 is movable and specifically slidable from a closed and locked position (as shown in
In this illustrated embodiment, the gate 351 is made from steel to: (a) provide structural strength and rigidity; (b) facilitate ease of cleaning; (c) facilitate ease of repair; and (d) prevent contamination. However, it should be appreciated that in alternative embodiments, the gate can be made from other suitable materials.
As best shown in
It should be appreciated that
As best shown in
More specifically, the locking bar support 402 has a front end and a rear end and includes: (1) an elongated top wall 403; (2) an elongated first side wall 404 integrally connected to and extending downwardly from the elongated top wall 403; and (3) an elongated second side wall 405 integrally connected to and extending downwardly from the elongated top wall 403 and spaced apart from the first side wall 404. The top wall 403 defines two spaced apart generally oval slots 403a and 403b.
The rear support bracket 410 includes: (1) a mounting wall 411; and (2) a locking bar support attachment wall 412 integrally connected to and extending upwardly from the mounting wall 411. The mounting wall 411 defines two spaced apart generally oval slots 411a and 411b for facilitating attachment by suitable fasteners (not shown) to the first stabilizer or anti-racking brace 190 as generally shown in
The front support bracket 420 includes a somewhat n-shaped wall 421 that is configured to be attached (by welding and/or suitable fasteners) to the front support 110 of the pallet 100 as generally shown in
The locking bar connector bracket 440 includes: (1) an includes an upper mounting wall 441 that defines a central opening (not labeled but shown in
The locking bar 430 is made of a suitable somewhat flexible steel in this illustrated example embodiment and is configured to be biased against or flex against it natural curvature (somewhat like a leaf spring). The locking bar 430 includes: (1) a front connection end portion 431 including a connection hand 432; (2) a central portion 433 including a locking bar support engagement area 434; and (3) a rear gate engagement end portion 435 including an upwardly extending gate engager 436. The front connection end portion 431 and specifically the connection hand 432 is suitably connected to the downwardly extending legs of locking bar connector bracket 440 by a suitable fastener or pivot member (not labeled). The rear gate engagement end portion 435 and specifically the upwardly extending gate engager 436 is configured to engage (as shown in
The actuation assembly 450 includes a threaded rod (not separately labeled) and a washer/nut combination (not shown or labeled) attached to the threaded rod. Movement of the threaded rod causes actuation of the locking bar 430 in a suitable manner.
The material unloading assembly 300 of the container 50 is supported by the pallet 100 such that the gate assembly 350 is configured to be positioned under and vertically adjacent to the central bottom opening or chute (generally shown but not labeled in
The compartment 500 of this illustrated example embodiment of the shipping container 50 of the present disclosure is generally illustrated in
The compartment 500 generally includes: (1) a first upright corner assembly 510; (2) a second upright corner assembly 530; (3) a third upright corner assembly 550; (4) a fourth upright corner assembly 570; (5) an interior bottom wall assembly 590; (6) an interior bottom wall support assembly 630; (7) an exterior front wall assembly 670; (8) an exterior first or left side wall assembly 690; (9) an exterior rear wall assembly 710; (10) an exterior second or right side wall assembly 730; (11) a first upper corner assembly 750; (12) a second upper corner assembly 804; (13) a third upper corner assembly 806; (14) a fourth upper corner assembly 808; (15) a top wall support assembly 830 (best shown in
In this illustrated embodiment, except as set forth herein (such as for the composite panels of the exterior wall assemblies and the top wall assembly 850), the first upright corner assembly 510, the second upright corner assembly 530, the third upright corner assembly 550, the fourth upright corner assembly 570, the interior bottom wall assembly 590, the exterior front wall assembly 670, the exterior first side wall assembly 690, the exterior rear wall assembly 710, the exterior second side wall assembly 730, and the top wall support assembly 830 are all formed from steel and suitably connected by fasteners or welding to provide suitable structural strength and rigidity. However, it should be appreciated that in alternative embodiments of the present disclosure, the compartment 500 or one or more parts thereof can be made from other suitably strong materials (such as wood, plastic, or composite or fiber glass materials) and that two or more parts thereof can be suitably connected in other manners.
As mentioned above, the compartment 500 includes four upper corner assemblies 750, 804, 806, and 808. Each upper corner assembly 750, 804, 806, and 808 is connected to the top of a different respective W-shaped corner member of a respective upright corner assembly. Each corner assembly 750, 804, 806, and 808 have generally similar shapes in this illustrated example embodiment, although it should be appreciated that corner assemblies 804 and 808 are left hand corner assemblies and that corner assemblies 750 and 806 are right hand corner assemblies in this illustrated example embodiment. Thus, for brevity, only upper corner assembly 750 is described in further detail with respect to Figures.
The example upper corner assembly 750 includes: (1) a horizontally extending base 751; (2) a vertically downwardly extending corner connection bracket 755 integrally connected to the bottom surface of the base 751; (3) a vertically extending tubular body 760 integrally connected to and extending upwardly from the top surface of the base 750; (4) a generally rectangular horizontally extending cap 765 integrally connected to the top surface of the horizontally extending tubular body 760; (5) a vertically extending corner pin 770 integrally connected to the cap 765 and extending upwardly from the top surface of the cap 765; (6) a catch plate 780 integrally connected to the corner connection bracket 755 and the base 751; and (7) an extension or sealing plate 790 integrally connected to the corner connection bracket 755 and the catch plate 780. The corner assembly 750 is formed such that it: (1) can be suitably attached to the top end of the first upright corner assembly 510 by suitable fastener; (2) mates with and supports a corner of the top wall assembly 850; (3) co-acts with the top wall assembly 850 to divert or guide water (and other contaminants) off of the top wall assembly 850; and (4) co-acts with the other top corner assemblies 804, 806, and 808, and various other components of container 50 to facilitate stacking of another container on the container 50.
More specifically, in this illustrated example embodiment, the horizontally extending base 751 is made from steel and includes a generally rectangular body having a top surface, a bottom surface, a front edge, a rear edge, a first side edge, and a second side edge.
In this illustrated example embodiment, the corner connection bracket 755 is made from steel and includes a first wall 756 and a transversely extending integrally connected second wall 758 that are configured to be suitably connected to the top section of the upright corner assembly and particularly the walls of the W-shaped corner member of the upright corner assembly 510 of the compartment 500. In addition to the fastener openings (not labeled), the walls 756 and 758 can include fixture openings (not labeled) that surround the heads of bolts (not shown) that are employed to attach the top wall assembly 850 to the four upper corner assemblies 750, 804, 806, and 808—so that the bolt head do not protrude outwardly. Certain of the fixture openings (not labeled) can also be employed to surround the heads of bolts (not shown) that are employed to attach elongated top wall assembly supporting supports 832, 834, 836, and 838 members to the upright corner sections.
In this illustrated example embodiment, the tubular body 760 is made from steel and includes four integrally connected upwardly extending walls 761, 762, 763, and 764, each having an upper edge, a bottom edge, an inner surface, and an outer surface.
In this illustrated example embodiment, the cap 765 is made from steel and includes a generally rectangular body having a top surface, a bottom surface, a front edge, a rear edge, a first side edge, and a second side edge. The cap 765 is integrally connected to each of the upper edges of the upwardly extending walls 761, 762, 763, and 764 of the tubular body 760. The cap 765 defines an offset corner pin receiving opening (not labeled) for facilitating attachment of the corner pin 770 to the cap 765.
In this illustrated example embodiment, the corner pin 770 is made from a solid piece of steel configured to fit into the corner pin receiver or opening of a bottom corner assembly of a pallet of another container stacked on container 50. The corner pin 770 includes a neck 772 and a head 774 that define generally flat continuous opposing side walls (not labeled) and generally curved end walls (not labeled). The head 774 includes inwardly angled upwardly extending top walls (not labeled) and a horizontally extending top wall (not labeled). The inwardly angled upwardly extending top walls assist in the alignment and centering of another container being stacked on container 50. The opposing flat sides of the head 774 of the corner pin 770 also facilitate alignment and centering of another container being stacked on container 50. The upwardly extending corner pin 770, as well as the other corner pins of the other corner assemblies of the compartment 500 of the container 50, is also configured to be received by standard or other ISO corners.
In this illustrated example embodiment, the corner pin 770 is integrally connected at an offset position on the cap 756. More specifically, during assembly, the neck 772 of the corner pin 770 is inserted through the opening in the top of the cap 765 and welded to the bottom surface of the cap 765. This enables a bottom corner assembly of another container to directly and flatly rest on the upper surface of the cap 765 without interference from any welds on the top surface of the cap 765. This provides for more level and secure stacking of the containers of the present disclosure.
In this illustrated example embodiment, the corner pin 770 fits into an aperture of a standard ISO corner as well as into any of the bottom corner assemblies of the container of the present disclosure.
The catch plate 780 is made from steel and includes: (1) a first base wall 781; (2) a second base wall 782 integrally connected to and extending transversely from the first base wall 781; (3) a first side wall 783 integrally connected to and extending vertically upwardly from the first base wall 781; and (4) a second side wall 784 integrally connected to and extending vertically upwardly from the second base wall 782. The first base wall 781 and the second base wall 782 are each integrally connected to the corner connection bracket 755 and the base 751.
The extension or sealing plate 790 is made from steel and includes: (1) a first base wall 791; and (2) a second base wall 792 integrally connected to and extending transversely from the first base wall 791. The first base wall 791 and the second base wall 792 are integrally connected to the first side wall 783 and the second side wall 784 of the catch plate 780. The first base wall 791 and the second base wall 792 are also integrally connected to the corner connection bracket 755.
The catch plate 780 and the extension or sealing plate 790 co-act to function as a support ledge to support a corner of the top wall assembly 850. The catch plate 780 and the extension or sealing plate 790 also co-act to function as a diverter or guide for diverting or guiding water and other contaminants off of the corner assembly 750. It should be appreciated that the catch plate 780 can be suitably angled to facilitate such water diversion and guidance.
It should be appreciated that these respective steel components are suitably connected by welding in this illustrated example embodiment.
It should further be appreciated that one or more seals or gaskets can be employed at or between the corner assembly 750 (as well as the other corner assemblies 804, 806, and 808) and the top wall assembly 850 to create compression seals.
In this illustrated example embodiment, the second upper corner assembly 804 is a mirror image of the first upper corner assembly 750 in this illustrated example embodiment.
In this illustrated example embodiment, the third upper corner assembly 806 is identical to the first upper corner 750 in this illustrated example embodiment.
In this illustrated example embodiment, the fourth upper corner assembly 808 includes is a mirror image of the first upper corner assembly 750 in this illustrated example embodiment.
As shown in
The front L-shaped angle top support 832 includes an elongated horizontally extending top wall 832a integrally connected to an elongated vertically extending side wall 832b.
The supports 832, 834, 836, and 838 are configured to partially support the top wall assembly 850. The supports 832, 834, 836, and 838 define fastener receiving holes that enable fasteners (such a bolts and nuts to be used to attach the top wall assembly 850 to these supports 832, 834, 836, and 838.
In this illustrated example embodiment, the top wall assembly 850 of the compartment 500 of the container 50 includes: (1) a molded unitary or one-piece outer structure; and (2) a relatively lightweight relatively strong inner reinforcing structure (not shown) encapsulated in the molded unitary or one-piece outer structure. The outer structure defines an interior cavity (not labeled) in which the inner reinforcing structure (not shown) is positioned. The outer structure of the top wall assembly includes a horizontally or substantially horizontally extending base including: (1) an inner section; (2) a reinforced central section surrounding the inner section and defining the interior cavity; and (3) an outer section surrounding the central section. The outer structure of the top wall assembly includes: (1) four somewhat L-shaped partially raised corner sections extending from the four respective corners of the outer section; and (2) four outer lips extending downwardly from the four respective outer panels of the outer section.
More specifically, the inner section of the outer structure of the top wall assembly includes: (1) a front panel; (2) a rear panel spaced apart from the front panel; (3) a first side panel connecting the front panel and the rear panel; (4) a second side panel connecting the front panel and the rear panel and spaced apart from the first side panel; and (5) an inner lip that is connected to and that extends upwardly and downwardly from the front panel, the rear panel, the first side panel, and the second side panel. Each of the front panel, the rear panel, the first side panel, and the second side panel have respective top and bottom surfaces. The inner lip defines a central material loading opening for the compartment of the container, and includes: (1) a front wall; (2) a rear wall spaced apart from the front wall; (3) a first side wall connecting the front wall and the rear wall; and (4) a second side wall connecting the front wall and the rear wall and spaced apart from the first side wall. The upwardly and downwardly extending inner lip is configured to be engaged by and sealed by the hatch assembly of the material loading assembly. The top wall assembly 850 thus defines a rectangular material receipt or loading opening that enables loose materials to flow into the compartment when the hatch assembly of the material loading assembly is opened.
The central reinforced section of the outer structure of the top wall assembly 850 includes: (1) a front panel; (2) a rear panel spaced apart from the front panel; (3) a first side panel connecting the front panel and the rear panel; and (4) a second side panel connecting the front panel and the rear panel and spaced apart from the first side panel. The front panel extends from the front panel, the rear panel extends from the rear panel, the first side panel extends from the first side panel, and the second side panel extends from the second side panel such that the front panel, the rear panel, the first side panel, and the second side panel surrounds the inner section and specifically respectively surrounds the front panel, the rear panel, the first side panel, and the second side panel. Each of the front panel, the rear panel, the first side panel, and the second side panel have respective top and bottom surfaces.
In this illustrated example embodiment, the front panel, the rear panel, the first side panel, and the second side panel are reinforced by a plurality of suitable inner reinforcing members. In this illustrated example embodiment, the front panel includes spaced apart first (top) and second (bottom) walls that define a front interior cavity, the rear panel includes spaced apart first (top) and second (bottom) walls that define a rear interior cavity, the first side panel includes spaced apart first (top) and second (bottom) walls that define a first side interior cavity (not labeled), and the second side panel includes spaced apart first (top) and second (bottom) walls that define a second side interior cavity. In this illustrated example embodiment, the front interior cavity, the rear interior cavity, the first side interior cavity, and the second side interior cavity are all connected. In this illustrated example embodiment, the front interior cavity, the rear interior cavity, the first side interior cavity, and the second side interior cavity are each partially or fully filled with a relatively light weight relatively strong inner reinforcing material. In this illustrated example embodiment, the reinforcing material is a lightweight wood such as a balsa wood. It should be appreciated that other suitable reinforcing materials may be employed in accordance with the present disclosure. It should be appreciated that the reinforcing material can be arranged in any suitable manner in the connected interior cavities in accordance with the present disclosure. It should be appreciated that two or more of the interior cavities may be separate cavities in accordance with the present disclosure.
The outer section of the outer structure of the top wall assembly includes: (1) a front panel; (2) a rear panel spaced apart from the front panel; (3) a first side panel connecting the front panel and the rear panel; and (4) a second side panel connecting the front panel and the rear panel and spaced apart from the first side panel. The front panel extends from the front panel, the rear panel extends from the rear panel, the first side panel extends from the first side panel, and the second side panel extends from the second side panel such that the front panel, the rear panel, the first side panel, and the second side panel surrounds the inner section and more specifically respectively surround the front panel, the rear panel, the first side panel, and the second side panel. Each of the front panel, the rear panel, the first side panel, and the second side panel have respective top and bottom surfaces.
The four somewhat L-shaped partially raised corner sections of the outer structure of the top wall assembly are identical in this illustrated example embodiment. Each corner section includes: (1) first and second upwardly and outwardly extending inner walls connected by a curved inner wall; (2) first and second outwardly extending top walls connected by a curved top wall; (3) first and second downwardly extending outer walls connected by a downwardly extending curved outer wall; and (4) first and second downwardly extending end walls. Each of the upwardly and outwardly extending inner walls, the outwardly extending top walls, the downwardly extending outer walls have top and bottom surfaces (not labeled). The first and second downwardly extending end walls have inner and outer surfaces.
Each of the corner sections 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; and (3) provide for easier, simpler, and quicker attachment of the top wall assembly to the rest of the container.
The four downwardly extending outer lips of the outer structure 310 of the top wall assembly are connected to the outer section of the outer structure. More specifically, (1) outer lip is connected to and extends downwardly from the front panel; (2) outer lip is connected to and extends downwardly from rear panel; (3) outer lip is connected to and extends downwardly from first side panel; and (4) outer lip is connected to and extends downwardly from second side panel. Each of the four downwardly extending outer lips 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. For attachment purposes, suitable holes are formed in each of the outer lips and suitable fasteners (such as nuts, washers, and bolts) are employed to attached each of the respective outer lips to respective top wall assembly supporters.
In this illustrated embodiment, the top wall of the top wall assembly (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 embodiment, except as provided below, the hatch assembly 940 and the hatch movement and locking assembly 970 are formed from steel to provide suitable structural strength and rigidity. However, it should be appreciated that in alternative embodiments, the material loading assembly 900 or one or more parts thereof can be made from other suitably strong materials (such as wood, plastic, or composite or fiber glass materials).
This continuous lip prevents contaminants (including solid particles and/or water or other liquids) on top wall assembly 850 of the compartment 500 from flowing into the compartment 500 through the opening 851 in the top wall assembly 850 of the compartment 500.
Although not shown, in this illustrated embodiment, a suitable sealant is applied on the top wall assembly to further prevent or assist in preventing contaminants (such as solid particles and/or water or other liquids) from entering the compartment 500.
It should be appreciated that a suitable locking mechanism (not shown) may be employed in accordance with the present disclosure to lock the material loading assembly.
It should be appreciated that suitable instructional marking or labels may be placed on or connected to the container of the present disclosure to instruct the users, operators, loaders, or unloaders on how to use, load, unload, and/or move the container in accordance with the present disclosure.
It should also be appreciated that suitable reflective tape strips can be connected to the container in accordance with the present disclosure.
It should further be appreciated that the container 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 sections of the container may be reinforced with a suitable plating to provide additional protection and strength in accordance with the present disclosure.
It should also be appreciated that one or more vents can be formed in or attached to the container in accordance with the present disclosure.
It should further be appreciated that the attachment of the various components of the container can be performed in any suitable way such as by welding (including but not limited to laser welding) and by suitable fasteners (such as but not limited to rivets and bolts and nuts).
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 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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