Bulk bin with integrated shock absorber

Abstract

A stackable bulk bin container having shock absorbing elements is provided. The bulk bin container includes a base portion and four collapsible sidewalls. The base includes feet extending downward. The feet are connected by stringers forming four corner portions. Shock absorbing elements are positioned proximate the corner portions in the base of the container. The shock absorbing elements absorb energy from impacts when the container is stacked on like containers.

Claims

1. A bulk bin container comprising: a base having a rectangular bottom portion including a first side, a second side, a third side and a fourth side, a first base corner, a second base corner, a third base corner and a fourth base corner; a first sidewall extending upward from the first side of the base; a second sidewall extending upward from the second side of the base; a third sidewall extending upward from the third side of the base; a fourth sidewall extending upward from the fourth side of the base, the first, second, third and fourth sidewalls forming a rectangular opening at a top end of the container, a first sidewall corner formed between the first sidewall and the second sidewall, a second sidewall corner formed between the second sidewall and the third sidewall, a third sidewall corner formed between the third sidewall and the fourth sidewall and a fourth sidewall corner formed between the fourth sidewall and the first sidewall; a first foot extending downward from the first base corner, a second foot extending downward from the second base corner, a third foot extending downward from the third base corner and a fourth foot extending downward from the fourth base corner, the first foot having a planar lower surface that extends from an outer perimeter of the container defined in part by an outer surface of the first sidewall and an outer surface of the second sidewall wherein at least a portion of the planar lower surface of the first foot is configured to rest on an upper edge of a first sidewall and a second sidewall of another like container when stacked on the another like container; a plurality of stringers connecting the first foot, second foot, third foot and fourth foot; and, a first shock absorbing element extending downward from the planar lower surface of the first foot, the first shock absorbing element having an inner surface abutting an edge of a first corner portion of the plurality of stringers and extending outward to an outer surface, the first shock absorbing element spaced inwardly from an outer edge of the first foot for contacting an interior side of the first sidewall corner of the another like container with the outer surface when stacked on the like container.

2. The bulk bin container of claim 1 wherein the second foot having a planar lower surface that extends from an outer perimeter of the container defined in part by an outer surface of the second sidewall and an outer surface of the third sidewall and wherein at least a portion of the planar lower surface of the second foot is configured to rest on an upper edge of the second sidewall and a third sidewall of the another like container when stacked on the another like container, and wherein the third foot having a planar lower surface that extends from an outer perimeter of the container defined in part by an outer surface of the third sidewall and an outer surface of the fourth sidewall and wherein at least a portion of the planar lower surface of the third foot is configured to rest on an upper edge of the third sidewall and a fourth sidewall of the another like container when stacked on the another like container, the fourth foot having a planar lower surface that extends from an outer perimeter of the container defined in part by an outer surface of the fourth sidewall and an outer surface of the first sidewall and wherein at least a portion of the planar lower surface of the fourth foot is configured to rest on an upper edge of the first sidewall and the fourth sidewall of the another like container when stacked on the another like container; and, further comprising a second shock absorbing element extending downward from the planar lower surface of the second foot, the second shock absorbing element having an inner surface abutting an edge of a second corner portion of the plurality of stringers and extending outward to an outer surface, the second shock absorbing element spaced inwardly from an outer edge of the second foot; a third shock absorbing element extending downward from the planar lower surface of the third foot, the third shock absorbing element having an inner surface abutting an edge of a third corner portion of the plurality of stringers and extending outward to an outer surface, the third shock absorbing element spaced inwardly from an outer edge of the third foot; and a fourth shock absorbing element extending downward from the planar lower surface of the fourth foot, the fourth shock absorbing element having an inner surface abutting an edge of a fourth corner portion of the plurality of stringers and extending outward to an outer surface, the fourth shock absorbing element spaced inwardly from an outer edge of the fourth foot, wherein each of the outer surfaces of the second, third and fourth shock absorbing elements contact interior portions of the second, third and fourth sidewall corners respectively of the like container.

3. The bulk bin container of claim 1 wherein the first shock absorbing element is formed from an elastomeric material.

4. The bulk bin container of claim 1 wherein the first shock absorbing element is L-shaped.

5. The bulk bin container of claim 4 wherein the first shock absorbing element has a rounded outer corner portion.

6. The bulk bin container of claim 1 wherein the base includes a plurality of additional feet extending downward from a bottom portion of the base, each of the additional feet spaced from a corner of the base.

7. The bulk bin container of claim 6 wherein the plurality of stringers form a rectangular shape.

8. The bulk bin container of claim 1 wherein the first shock absorbing element extends downward to a position equal to the stringers.

9. The bulk bin container of claim 1 wherein the first shock absorbing element includes a plurality of holes.

10. The bulk bin container of claim 1 wherein the first shock absorbing element is formed from a plurality of shock absorbing segments.

11. A bulk bin container comprising: a rectangular base having a first side, a second side, a third side and a fourth side, a first foot extending downward from a first corner of the base, a second foot extending downward from a second corner of the base, a third foot extending downward from a third corner of the base, and a fourth foot extending downward from a fourth corner of the base; a first sidewall extending upward from the first side of the base; a second sidewall extending upward from the second side of the base; a third sidewall extending upward from the third side of the base; a fourth sidewall extending from the fourth side of the base, wherein the first, second, third and fourth sidewalls form a rectangular opening at a top end of the container; a plurality of stringers connected to and extending downward from the first foot, second foot, third foot and fourth foot; and, a first shock absorbing element connected to and extending downward from a lower surface of the first foot wherein the lower surface of the first foot extends from an outer edge aligned with an outer surface of the first sidewall and the second sidewall, the first shock absorbing element spaced inward from the outer edge of the lower surface of the first foot so that it can contact an interior portion of another like container when stacked on the like container, the first shock absorbing element having an inner surface contacting a first corner defined by the plurality of stringers and an outer surface for contacting the another like container wherein the first shock absorbing element extends outward from the first corner defined by the plurality of stringers.

12. The container of claim 11 wherein the sidewalls are collapsible.

13. The container of claim 11 wherein further comprising a second shock absorbing element connected to and extending downward from a lower surface of the second foot wherein the lower surface of the second foot extends from an outer edge aligned with an outer surface of the second sidewall and the third sidewall, the second shock absorbing element having an inner surface contacting a second corner defined by the plurality of stringers and an outer surface for contacting the another like container wherein the second shock absorbing element extends outward from the second corner defined by the plurality of stringers, a third shock absorbing element connected to and extending downward from a lower surface of the third foot wherein the lower surface of the third foot extends from an outer edge aligned with an outer surface of the third sidewall and the fourth sidewall, the third shock absorbing element having an inner surface contacting a third corner defined by the plurality of stringers and an outer surface for contacting the another like container wherein the third shock absorbing element extends outward from the third corner defined by the plurality of stringers, and a fourth shock absorbing element connected to and extending downward from a lower surface of the fourth foot wherein the lower surface of the fourth foot extends from an outer edge aligned with an outer surface of the fourth sidewall and the first sidewall, the fourth shock absorbing element having an inner surface contacting a fourth corner defined by the plurality of stringers and an outer surface for contacting the another like container wherein the fourth shock absorbing element extends outward from the fourth corner defined by the plurality of stringers, each of the second, third and fourth shock absorbing elements configured to contact an interior portion of the like container.

14. The container of claim 13 wherein each of the first, second, third and fourth shock absorbing elements are L-shaped.

15. The container of claim 14 wherein each of the first, second, third and fourth shock absorbing elements have a rounded corner portion.

16. The container of claim 13 wherein each of the first, second, third and fourth shock absorbing elements are elastomeric.

17. The container of claim 13 wherein the first shock absorbing element includes a plurality of holes.

18. The container of claim 11 wherein the first shock absorbing element comprises a plurality of segments.

19. The container of claim 11 wherein the plurality of stringers form a rectangular shape.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) To understand the present invention, it will now be described by way of example, with reference to the accompanying drawings in which:

(2) FIG. 1 is a perspective view of a bottom of a bulk bin container in accordance with the present invention;

(3) FIG. 2 is a partial, enlarged perspective view of a corner of the bulk bin container of FIG. 1; and

(4) FIG. 3 is a partial perspective view of a prior container with damage to the corner area.

DETAILED DESCRIPTION

(5) 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.

(6) FIGS. 1 and 2 show a bulk bin container 10 with a shock absorbing element 12 in accordance with the present invention. The bulk bin container 10 (shown upside down in both Figures) includes a rectangular base 14 having a first side, a second side, a third side and a fourth side and a plurality of feet 16 extending from the base along a periphery thereof. In the embodiment shown, the container 10 includes eight feet. More or fewer feet can be utilized depending on the size of the bulk bin at issue. A plurality of stringers 18 form a rectangular shape having four corners 19, and connect the feet 16.

(7) The container 10 includes a first sidewall 20, a second sidewall 22, a third sidewall and a fourth sidewall extending from the first, second, third and fourth sides of the base 14, respectively. The sidewalls can be hingedly connected to the base 14 and can move from a collapsed position to an erected-set-up position. The sidewalls form a rectangular opening at the top of the container (when turned base side down).

(8) The stringers 18 are shown inset from an outer periphery of the base, and are positioned to fit within the opening formed by the sidewalls of the bulk bin container 10.

(9) As illustrated in FIGS. 1 and 2, each corner formed by the stringers 18 includes a shock absorbing element 12. The shock absorbing element 12 is generally L-shaped and includes a rounded outer corner portion 24.

(10) The shock absorbing element 12 extends outward from the corner 19 of the stringers 18 to contact the corner of the opening formed by the sidewalls when the container 10 is set up. As shown in FIG. 2, the shock absorbing element 12 has a thickness that allows it to fit between the stringers 18 and the opening of the container 10. If additional thickness is required or wanted, the stringers can be provided with an inset in the corner portion 19 to allow for a thicker shock absorbing element 12 while still maintaining the outer dimensions of the outer surface of the shock absorbing element 12.

(11) During use the shock absorbing element will absorb some of the kinetic energy that is transferred on impact from the upper container to the lower container (of two stacked containers). This reduces the amount of energy that can cause damage to the lower bin. The shock absorbing element also more evenly distributes the forces that occur during impact onto the corners of the lower container.

(12) An example of damage caused by impacts to a stack of containers is shown in FIG. 3. The corner portion of the container is broken from an impact.

(13) The shock absorbing element 12 can be formed from an elastomeric material or other suitable material for absorbing forces. Additionally, the shock absorbing element can be formed from more than one material, and can include additional structures to enhance the absorption of energy from impacts or other movement of the containers.

(14) As shown in FIG. 2, the shock absorbing element 12 can include a plurality of openings 26 that will give the shock absorbing element 12 a spring-like quality. The openings 26 can be cylindrical and hollow (as shown) or can be filled with a materialsuch as one with a different elastic quality than the rest of the element. Moreover, the openings can be shapes other than cylindrical.

(15) While the shock absorbing element 12 is shown as a single continuous corner piece, it can be formed from two or more pieces or segments. Additionally, shock absorbing element 12 can have a continuous outer surface 28, or can include one or more gaps or indentations.

(16) In one alternative embodiment, shock absorbing elements can be placed along the upper portion of the sidewalls, positioned to contact the corners 19 formed by the stringers 18 (or other corner structure for containers not having stringers). In another alternative embodiment, both the corner portion of the stringers and the upper portions of the sidewalls can include shock absorbing elements. Additionally, shock absorbing elements can be positioned along the stringers and/or the upper portions of the sidewalls at other positions (than just the corners).

(17) 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.