The present invention relates generally to securement devices, and, more particularly, to securement devices for use on stackable shipping racks.
Shipping racks are used for transporting various articles, and may include movable or collapsible walls that are raised or extended for shipping or moving articles thereon, while being retractable or collapsible to save space while the shipping racks are being stored or transported without supporting other articles. Typically, such shipping racks are stackable, and may include interconnectors to facilitate alignment and stability of the racks when they are stacked atop one another.
The present invention provides a securement device for collapsed shipping racks or containers that is readily and securely engageable and disengageable with stacked racks to connect or join shipping racks that are stacked atop one another so that the racks may be stored, lifted, and transported without substantial risk of the stacked racks toppling over. The securement device includes a tether, such as a chain or flexible cable or the like, positioned along an exterior surface of each shipping rack, with a free end that is attachable to a bracket on an adjacent shipping rack; such as when the shipping racks are stacked atop one another. A removable pin at each bracket releasably engages the tether from another bracket so that the shipping racks can be readily attached to and detached from one another simply by engaging and disengaging the tether with the removable pin. Optionally, the tether of a lower shipping rack is releasably attachable to a removable pin at the bracket of a shipping rack located immediately above the lower shipping rack, so that when the tether is not attached to the removable pin of the adjacent shipping rack, the tether hangs down along a side or end of the lower shipping rack to provide a clear and easy-to-see indication that the shipping racks are not secured and are in a potentially unsafe condition.
According to an aspect of the present invention, A collapsible shipping rack securement device used to secure adjacent racks together when collapsed and stacked comprises a first securement device at a first collapsible shipping rack, with the first securement device comprising a bracket member, upper and lower pin members coupled at the bracket member, and a tether having first and second opposite end portions. The first end portion of the tether is coupled to one of the upper and lower pin members, and the second end portion is releasably attachable to a second securement device of a second collapsible shipping rack when the first shipping rack is adjacently stacked relative to the second collapsible shipping rack to securely and releasably couple the first collapsible shipping rack and the second collapsible shipping rack together in a stacked arrangement.
The upper pin member may be fixedly coupled at the bracket member and the lower pin member may be releasably coupled at the bracket member, with the first end portion of the tether being engaged by the upper pin member to generally fixedly attach the first end portion of the tether to the bracket member and the second end portion of the tether being releasably engageable by a lower pin member of the second securement device when the second collapsible shipping rack is stacked above the first collapsible shipping rack. The bracket member may also include a through-hole for movably receiving the lower pin member, with the lower pin member being movable to releasably attach a tether from a third securement device of a third collapsible shipping rack to the first securement device with the first collapsible shipping rack being stacked above the third collapsible shipping rack. Still further, the lower pin member may include a projection extending generally radially outwardly from a shaft with the through-hole including a notch through which the projection is passed. The projection of the lower pin member may be alignable with the notch to permit insertion of the lower pin member into the through-hole, and the projection may be misaligned with the notch to substantially prevent removal of the lower pin member from the through-hole when the projection is oriented to be misaligned with the notch. The lower pin member may also include a handle extending generally radially outwardly from the shaft with the shaft being rotatable and horizontally slidable within the through-hole of the bracket member and the handle tending to maintain the shaft in an orientation in which the projection is misaligned with the notch via gravity.
According to another aspect of the present invention, a method of securing a plurality of shipping racks to one another comprises providing at least two shipping racks, each of which includes a securement device having respective bracket members, upper and lower pin members at the bracket members, and a tether having opposite end portions. The method further includes positioning one of the shipping racks atop the other whereby the bracket members of the shipping racks are aligned, attaching one of the opposite end portions of the tether of a securement device of a first shipping rack to one of the upper and lower pin members of the securement device of the first shipping rack, and releasably attaching the other end portion of the tether of the securement device of the first shipping rack to one of the upper and lower pin members of the securement device of the other shipping rack. In a particular embodiment, the step of attaching comprises coupling a first opposite end portion of the tether of the securement device of the first shipping rack to the upper pin member of the securement device of the first shipping rack, and wherein the step of releasably attaching comprises releasably coupling the second opposite end portion of the tether of the securement device of the first shipping rack to the lower pin member of the securement device of the other shipping rack when the other shipping rack is stacked atop the first shipping rack.
These and other objects, advantages, purposes, and features of the present invention will become apparent upon review of the following specification in conjunction with the drawings.
Referring now to the drawings and the illustrative embodiments depicted therein, a securement device 10 is attachable to an outer portion of an end or side wall of a collapsible shipping rack or container 12, each securement device 10 being connectable to an adjacent securement device 10 of a shipping rack 12 (such as a shipping rack stacked on top of the first shipping rack), such as shown in
Collapsible shipping racks 12 are generally rectangular with end sides 13 and elongate sides 15 (
Securement devices 10 include bracket members 18, upper pins 20, lower pins 22, and tethers or tether elements 24. In the illustrated embodiment of
With reference to
Bracket members 18 are welded or otherwise fastened or secured to racks 12 at base portions 28, and include an upper through-hole 32 in each arm 26a, 26b, the upper through-holes 32 being generally aligned with one another for mounting upper pins 20 in a generally perpendicular orientation to anus 26a, 26b. Upper pins 20 may be fixedly mounted to arms 26a, 26b at upper through-holes 32 by welding, or with fasteners or the like, and may be inserted through first end portion or fixed end portion 24a of tether 24 so as to fixedly or substantially permanently couple tether 24 to bracket member 18. Arms 26a, 26b further define left and right lower through-holes 34a, 34b that are generally aligned with one another to support lower pins 22 in a generally perpendicular orientation relative to arms 26a, 26b. Lower through-holes 34a, 34b may be slightly larger than the diameter of lower pins 22. As shown in the illustrated embodiment, the left lower through-hole 34a in left arm 26a includes at least one notch 36 for releasably securing the lower pin 22 therein, as will be described below. Optionally, both through-holes 34a, 34b may include notches so that lower pin 22 may be completely removed from bracket member 18. Bracket members 18 may be made from substantially similar material to shipping racks 12, such as steel or other sufficiently strong material, and may be coupled or joined to an outer surface of each shipping rack 12 via welding, or with fasteners or other coupling or joining methods. Still further, a pair of separate plate members that are not joined together by a base portion (such as base portion 28) may each be welded directly to a side or end wall of a shipping rack in a spaced arrangement to form a bracket member within the scope of the present invention.
Tethers 24 are generally flexible and strong elements having loops at first end portion 24a and second end portion 24b for connection to upper pin 20 and lower pin 22 respectively. For example, and as shown, tether 24 may comprise a chain such as a conventional chain having multiple links, such as ¾-inch Grade-80 chain, available from McMaster-Carr Supply Company, of Atlanta, Ga., as Part No. 3587T18. However, it will be appreciated that various other types of tethers may be suitable for use with the present invention. For example, cables (such as steel cables or the like) having a loop formed at either end may be equally suitable. Optionally, special coupling features may be added at either or both ends of tether 24, such as hooks or coupling plates (described below with respect to
Optionally, instead of flexible tethers, it is envisioned that a rigid or solid member or element may be used that is pivotably mounted to upper pins 20 and coupleable to lower pins 22. Thus, any cable, chain, or rigid member that is coupleable between the upper pin of a bracket member of the lower shipping rack 12b and the lower pin of a bracket member of the upper shipping rack 12a may be suitable. The length of tethers is selected to secure the upper and lower shipping racks relative to one another and limit or substantially preclude separation (such as vertical movement of one of the shipping racks away from the other shipping rack), in order to limit or substantially preclude or prevent removal of posts 14 from sockets 16 of the stacked shipping racks 12 when the tethers are fully installed between adjacent or stacked racks, thereby enhancing the stability of a plurality of stacked shipping racks and preventing the shipping racks from inadvertently separating from one another. It will be appreciated that some degree of slack is permissible in the tethers when they are fully attached, so long as the shipping racks are retained in close arrangement so that posts 14 are retained in sockets 16 to maintain alignment of the racks.
As best shown in
After projection 40 has passed through notch 36 and is positioned outboard of the left arm 26a that supports distal end portion 22c of lower pin 22, lower pin 22 is rotated approximately 180 degrees, such as by using handle portion 38, so that radial projection 40 and handle portion 38 extend downwardly, which misaligns projection 40 with notch 36 and limits or substantially precludes removal of the lower pin 22 from lower through-holes 34 when the lower pin is in that orientation. The weight of handle portion 38 biases or maintains pin 22 in the misaligned orientation and thus prevents inadvertent or unintentional realignment of radial projection 40 with notch 36 so that lower pin 22 cannot be removed from bracket member 18 until lower pin 22 is manually rotated approximately 180 degrees to realign radial projection 40 with notch 36. Second end 24b of tether 24 is releasably coupleable to lower pin 22 by inserting the lower pin 22 into an opening or loop 41 at the second end 24b, within vertical channel 30, further inserting distal end portion 22b and radial projection 40 of lower pin 22 through lower through-hole 34b, and rotating the lower pin to lock the pin in place and thereby prevent removal of the tether. Although projection 40 is shown to extend outwardly from shaft 21 in the same radial direction relative to handle portion 38, an alternative pin may be constructed in which the tendency of the handle portion to rotate by gravity causes the shaft to rotate the projection into a misalignment orientation relative to notch 36 without the projection extending from the shaft in the same radial direction relative to the handle.
Referring now to
Therefore, the present invention provides securement devices positioned on shipping racks that are configured for stacked arrangement, where the securement devices include chains or tethers that rest in vertical channels of brackets when not in use. The tethers are movable to extend upwardly from the bracket of a lower shipping rack to be at least partially received in the bracket of an upper shipping rack, where the tether is releasably coupled to a lower pin of the bracket of the upper shipping rack 12a, and thus provides a clear visual indication that the racks are locked together, in the form of the tether spanning between shipping racks that are spaced atop one another. The lower pin of each bracket may be removable to releasably couple to the tether of a bracket from the shipping rack positioned below. The lower pin may have a radial projection or key to prevent inadvertent or accidental removal of the lower pin. By limiting or preventing vertical movement between adjacent shipping racks, the securement devices may work cooperatively with posts and sockets on the racks to maintain the racks in safe, secure, and non-separable alignment with one another, such as for storing, lifting, and transporting of the shipping racks.
Optionally, and with reference to
Each arm 126 defines an upper through-hole 132 and a lower through-hole 134. Similar to upper pin 20 and upper through-holes 32 of securement device 10, lower pin 122 may be welded or permanently fastened to arms 126a, 126b at lower through-holes 134 to permanently couple a first end 124a of tether 124 to bracket member 118. Similar to lower pin 22 and lower through-holes 34a, 34b of securement device 10, upper pin 120 and at least one of upper through-holes 132a, 132b of securement device 110 may be correspondingly shaped (such as by including a notch 136 in the right upper through-hole 132b and a correspondingly shaped radial projection 140 on the upper pin) to permit sliding engagement of the upper pin in the upper through-holes 132a, 132b, while preventing removal of a distal end portion 120c of upper pin 120 from a channel 130 defined by bracket arms 126a, 126b, such as in a similar manner as described above with respect to lower pin 22 and lower through-holes 34a, 34b of securement device 10. It should be understood that the coupling plate 142 of first end 124a of the upwardly extending upper tether 124 having second end 124b affixed to rack 112a in
Upper pin 120 includes a handle extension 138 located outside of channel 130, but inside a channel 146 defined by L-shaped side extension 144, such as best shown in
To securely couple or join shipping racks that are stacked atop one another, upper pin 120 of the bracket member of the lower shipping rack is first rotated and then at least partially removed from vertical channel 130. Second end portion 124b of tether 124 (optionally including coupling plate 142) is then positioned so that a loop or link or through-hole in the tether or coupling plate is aligned with distal end portion 120c of upper pin 120, and the upper pin is slid back into place (engaging second end portion 124b of tether 124) and rotated to prevent the inadvertent removal of the upper pin. A pin may include two opposed radial projections, or other arrangements of projections, with through holes, such as through holes 132b and 141, necessarily requiring corresponding notches through which the radial projections may be passed.
Because tethers 124 are permanently coupled to the lower pins 122 in the illustrated embodiment of
Optionally, in order to further mitigate the risk of uncoupled tethers 124 presenting the false appearance of being coupled to upper pins, it may be desirable to couple the distal end portion 124b of any disconnected tether 124 to the upper pin 120 of the same bracket, such as shown at ‘C’ in
It will be appreciated that in any of the embodiments described herein, either of the upper and lower pins may be fixed to its respective bracket member, with the other pin being releasably attachable to the other pin (i.e. lower or upper pin) of an adjacent shipping rack, without departing from the spirit and scope of the present invention. By selecting the upper pins as fixed and the lower pins as removable, or vice versa, a user may determine the visual cues provided by the tethers that are connected versus those that are disconnected, as well as the procedure used for coupling and decoupling the tethers from the removable pins. In any embodiment, all or portions of the securement devices may be color coded. For example, with reference to the embodiment of
Changes and modifications to the specifically described embodiments may be carried out without departing from the principles of the present invention, which is intended to be limited only by the scope of the appended claims, as interpreted according to the principles of patent law.
The present application claims the benefit of U.S. provisional patent application Ser. No. 61/233,025, filed Aug. 11, 2009, by John Pearson, Lewis Vitalis, and Michael Chilkotowsky for METHOD AND APPARATUS FOR SECURING COLLAPSED SHIPPING RACKS, which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
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61233025 | Aug 2009 | US |