N/A
The present invention is generally directed to a bulk bin container having interlocking features, and more particularly, to a bulk bin container having side wall panels with upper protrusions and base walls with upper protrusions, and a base portion with runners and/or feet that extend to an outer perimeter of the container and include notches for receiving the protrusions.
In order to securely stack two or more containers without the use of top caps (covers), most containers in the field today have a recess around the perimeter of the bottom edge of the base (see e.g.,
When two open containers are stacked on top of each other, the recess of the upper bin fits inside the side walls of the lower bin, and thus ensures for a secure connection between the two containers that prevents the upper container from sliding off the lower container during transportation and storage. In most cases, the same recess also interfaces with the base walls of a collapsed container, so that secure stacks of collapsed containers can be built in the same manner. If the container has runners or stringers on the bottom that connect individual feet, these runners or stringers do not extend to the outermost surfaces, but instead are part of the recess, so that they sit inside the container side walls or the base walls of the lower container in a stack.
This method of using a recess at the bottom edge of a container in general works well, but has three potential downsides:
(1) The recess reduces the effective footprint of a container, which slightly increases the potential of a stack of containers to tip over. For example, the ORBIS HDR3230 container line has an overall length and width of 32″×30″, but the actual contact on the floor measures only 29″×27″.
(2) In a stack of loaded containers, the main loads are transferred through the perimeter of the container stack into the ground. Having a recess at the very bottom of the stack creates a bending momentum (the forces have to “flow around the corner”), which under high loads can lead to rotation of the base sidewalls of the lowest container. This can lead to permanent deformation of the base sidewalls or even stack failures.
(3) As explained above, runners at the perimeter of the base need to be reduced in width to form the recess. This weakens the runners, which can lead to very fragile designs or require the use of stronger and typically more expensive materials (e.g. steel or reinforced composites), especially for containers that have a smaller footprint like 32″×30″ or 800 mm×1200 mm.
The present invention provides an improved container that overcomes problems associated with the known containers.
The present invention is a container having protrusions at the top of both the base walls and the side wall panels, that are configure to mate with openings in the feet and/or runners of a like container when stacked. This allows for open (i.e., the side wall panels being in an upright position) and collapsed (i.e., the side wall panels being in a collapsed position) containers to stack with other open and/or collapsed containers. Moreover, (other than the openings for receiving the protrusions) the feet and/or runners extend to the outer perimeter of the container (i.e., a portion of the runners and feet extend to and rest on the upper edge of the side walls or base walls instead of being inset or recessed inwardly from this location). This avoids the problems associated with the known containers having a recessed portion around the perimeter of the bottom of the container.
In accordance with one aspect of the invention, a bulk container having interlocking features about the outside perimeter is provided. The container comprises a rectangular base portion having a first side and an opposing second side, a first end and an opposing second end, and a bottom wall extending between the first side, the second side, the first end and the second end of the base portion. A first side wall panel is connected to the first side of the base portion. The first side wall panel includes a first protrusion extending from an upper edge of the first side wall panel. A second side wall panel is connected to the second side of the base portion. The second side wall panel includes a first protrusion extending from an upper edge of the second side wall panel. A first foot extends from the bottom wall on the first side and has an outer surface that is co-planar with an outer surface of the first side wall panel. The first foot includes a notch in a lower surface for receiving a first protrusion when stacked on a like container.
The lowermost surface of the first foot rests on the upper edge of the side wall panel next to the protrusion (as well as on an adjacent side wall panel). Accordingly, the first foot does not have any portion that sits within the container (i.e., the first foot does not include any portion that extends lower than the upper edge of the side wall panel). This (along with other similar feet on the container) allows for a higher fill height for stacked containers than similarly dimensioned containers having the inset or recessed portion as described in the Background.
Similarly, a first foot extends from the bottom wall on the second side. This first foot has an outer surface that is co-planar with an outer surface of the second side wall panel and a notch in a lower surface for receiving a protrusion when stacked on a like container. Again, the lowermost surface of the first foot rests on the upper edge of the side wall panel next to the protrusion and no portion of the foot is within the container.
The first side wall panel can also include a second protrusion extending from the upper edge of the first side wall panel spaced from the first protrusion on the first side wall panel. Similarly, the second side wall panel can also include a second protrusion extending from the upper edge of the second side wall panel spaced from the first protrusion on the second side wall panel. Additional protrusions can also extend from the upper edge of the first and second side walls.
The base portion can also include a second foot extending from the bottom wall on the first side. The second foot can have an outer surface that is co-planar with the outer surface of the first side wall panel and a notch in a lower surface for receiving a second protrusion when stacked on a like container. Similarly, the base portion can include a second foot extending from the bottom wall on the second side. The second foot can have an outer surface that is co-planar with the outer surface of the first side wall panel and a notch in a lower surface for receiving a second protrusion when stacked on a like container. Additional feet can extend from the bottom of the base portion, either along the first or second sides, or at other locations (e.g., a third row of feet in the middle of the base portion). All of the feet have a lower surface that does not extend into the interior of a lower like container when stacked on the lower container.
A first runner can be connected to the first foot and the second foot extending from the first side of the base portion. Similarly, a second runner can be connected to the first foot and the second foot extending from the second side of the base portion. Additional runners can be included depending on the number and positioning of the feet on the container.
The first runner includes a lower surface. At least a portion of the lower surface of the first runner is positioned to rest on an upper edge of the first side wall of a like lower container when stacked on the lower container. Unlike prior containers, the portion of the first runner resting on the upper edge of the first side wall is not inset or recessed—this allows for a larger foot print. It also allows for loads on the lowermost container, of a stack of like containers having similar runners, to be directly supported through the runner rather than offset by the inset or recess on the lowermost container as described above. The second runner is similarly configured to include a lower surface having at least a portion that rests directly on an upper edge of the second side wall of a like container.
The bulk container can further comprise a first base wall extending upward from the first side of the base portion. Like the first side wall panel, the first base wall includes a first protrusion extending from an upper edge of the first base wall. Similarly, a second base wall can extend upward from the second side of the base portion. The second base wall can include a first protrusion extending from an upper edge of the second base wall.
A second protrusion can extend from the upper edge of the first base wall. A second protrusion can extend from the upper edge of the second base wall. Additional protrusions can extend from the first base wall or the second base wall.
The lower surfaces of the first and second runners are positioned to rest on an upper edges of the first and second base walls respectively (i.e., in a similar manner as the upper edges of the side walls). Again, the runner is not inset within the base walls and loads will flow directly downward to the lowermost container.
The container can include a dust cover having notches to accommodate the protrusions. Alternatively, the container can include a low profile cover or a top cap.
In accordance with another aspect of the invention, a bulk container comprises a rectangular base portion having a first side and an opposing second side, a first end and an opposing second end, and a bottom wall extending between the first side, the second side, the first end and the second end of the base portion. A first base wall extends upward from the first side of the base portion. The first base wall includes a first protrusion extending from an upper edge of the first base wall. A second base wall extends upward from the second side of the base portion. The second base wall includes a first protrusion extending from an upper edge of the second base wall. The container further includes a first foot extending from the bottom wall on the first side. The first foot has an outer surface that is co-planar with an outer surface of the first base wall, and a notch in a lower surface for receiving a first protrusion when stacked on a like container. Similarly, a first foot extends from the bottom wall on the second side. The first foot extending from the second side has an outer surface that is co-planar with an outer surface of the second base wall, and a notch in a lower surface for receiving a protrusion when stacked on a like container.
The first base wall can include a second protrusion extending from the upper edge of the first base wall spaced from the first protrusion on the first base wall. Similarly, the second base wall can include a second protrusion extending from the upper edge of the second base wall spaced from the first protrusion on the second base wall. Additional protrusions can extend upward from either wall.
The base portion can include a second foot extending from the bottom wall on the first side. The second foot has an outer surface that is co-planar with the outer surface of the first base wall panel, and a notch in a lower surface for receiving a second protrusion when stacked on a like container. The base portion can also include a second foot extending from the bottom wall on the second side. The second foot from the second side has an outer surface that is co-planar with the outer surface of the second base wall panel, and a notch in a lower surface for receiving a second protrusion when stacked on a like container.
A first runner can be connected to the first foot and the second foot extending from the first side of the base portion. A second runner can be connected to the first foot and the second foot extending from the second side of the base portion.
Similar to the first aspect of the invention described above, the first runner includes a lower surface wherein at least a portion of the lower surface is positioned to rest on an upper edge of the first base wall. The second runner similarly is configured to include a lower surface having a portion positioned to rest on an upper edge of the second base wall.
The container can further comprise a first side wall panel connected to the first side of the base portion. The first side wall panel can include a first protrusion extending from an upper edge of the first side wall panel. Similarly, a second side wall panel can be connected to the second side of the base portion. The second side wall panel can include a first protrusion extending from an upper edge of the second side wall panel.
The first side wall panel can also include a second protrusion extending from the upper edge of the first side wall panel spaced from the first protrusion on the first side wall panel. Similarly, the second side wall panel includes a second protrusion extending from the upper edge of the second side wall panel spaced from the first protrusion on the second side wall panel.
The first side wall panel can be connected to the first side of the base portion by a rotatable hinge. The second side wall panel can also be connected to the second side of the base portion by a rotatable hinge.
The first side wall panel can include a first notch along a lower edge to accommodate the first protrusion on the first base wall and a second notch on the lower edge to accommodate the second protrusion on the first base wall. The second side wall panel can similarly include a first notch along a lower edge to accommodate the first protrusion on the second base wall and a second notch on the lower edge to accommodate the second protrusion on the second base wall.
Again, like the first aspect, the lower surfaces of the feet and/or runners are configured to rest on the upper edges of the side walls or the base walls.
As used herein, a “like container” is a container that is either identical to the claimed container or one that includes at least the interlocking features (i.e., the protrusions in either the side wall panels or base walls, and notches in the runners and/or feet), feet and/or runners described and claimed herein.
Directional and/or positional terms, such as “upper,” “lower,” “upward,” “top,” etc. are used with respect to the position of the container as shown in the Figures and are not meant to limit the scope of the present application (e.g., a foot extending “downward” from the base portion would still cover a similar container that is pushed onto its side).
Further aspects of the present invention are described herein and shown in the Figures.
To understand the present invention, it will now be described by way of example, with reference to the accompanying drawings in which:
While this invention is susceptible of embodiments in many different forms, there is shown in the drawings, and will herein be described in detail preferred embodiments of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiments illustrated.
As evident in the Figure, the runners 12 and parts of the feet 14 are positioned inward of the outer perimeter of the container (as generally defined by the outer surface of the side wall panels), forming a recess 18. This allows the runners 12 and parts of the feet 14 to fit within the open end of a like container when stacked (i.e., below the upper edges of the side walls). As discussed above, this configuration results in problems for the lowermost container of the stack which rests on its runners 12 and inset parts of the feet 14. It also requires space in the container to accommodate the runners 12 and feet 14, which means the maximum space for products carried by the container is reduced.
The containers have interlocking features at the top of both the side wall panels and the base walls, which interact with features in the feet and/or runners to securely stack with other like containers. However, unlike prior known containers, the containers of the present invention do not have recessed structure around the entirety of the base (i.e., one that fits within the opening of a lower like container) that forms a smaller footprint for the lowermost container of a stack than that shown in
The bottom of the base portion 22 is shown in
To enable the base portion 22 to interlock with another like container 20 (either in the open position or collapsed position), the outer runners 40 and/or feet 38 include notches 42 configured to receive protrusions 26 extending upward from the upper edges 58 from the side wall panels 24, or protrusions 32 extending upward from the upper edges of the base walls 28, 30. An open container 20 stacked on an open container 20, a collapsed container 20 stacked on a collapsed container 20, and a collapsed container 20 stacked on an open container 20—each utilizing the interlocking structures—are shown in
Additionally,
A low-profile over-fit cover 50 is shown in
As illustrated in
In both instances (i.e., top crate on side walls of lower crate, or top crate on base walls of lower crate), the top container does not include a recessed portion that fits within the opening of the lower container. Thus the foot print of the top container is greater than a similar container having such a recess (i.e., like that of
The feet 38 include a lower surface that also rests directly on the upper edge of adjacent side walls. Similar to the runners 40, the feet 38 do not include any portions that are in the interior of a lower container when stacked. This allows for maximum product fill height of the lower container.
Many modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood within the scope of the appended claims the invention may be protected otherwise than as specifically described.
This Application is a continuation of and claims the benefit of U.S. patent application Ser. No. 15/600,911 filed May 22, 2017, which claims priority from U.S. Provisional Patent Application Nos. 62/340,798 filed May 24, 2016, and 62/348,509 filed Jun. 10, 2016, the contents of which are incorporated herein in their entirety by reference and made a part hereof.
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Number | Date | Country | |
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20190210765 A1 | Jul 2019 | US |
Number | Date | Country | |
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62340798 | May 2016 | US | |
62348509 | Jun 2016 | US |
Number | Date | Country | |
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Parent | 15600911 | May 2017 | US |
Child | 16353764 | US |