N/A
The present invention generally relates to a latching mechanism having a forward facing engagement panel for use with a sleeve pack assembly, and more particularly to a latching mechanism for a sleeve pack assembly having an engagement panel that can be operated by a user's foot.
Returnable bulk containers come in two general classifications, sleeve packs and knock downs. A sleeve pack includes a pallet, a sleeve and a top cap. To assemble and disassemble a sleeve pack today there are two options to retain (i.e., lock) the bottom portion of the sleeve to the pallet and the top portion of the sleeve to the top cap. These include (1) a passive interference fit, and (2) an active latching mechanism.
The passive interference fit lock generally creates a weak engagement and/or is difficult to assemble, and can damage the sleeve. The active latching mechanisms available today require the operator to bend over or kneel and reach under the pallet to engage the lock.
The present invention provides the desirable aspects of both designs, allowing for an easy passive latch assembly without the need to bend and reach, while providing a strong “lock” between the components. It also provides for active disengaging without the need to bend and reach.
Additional aspects of the present invention are set forth herein.
The present invention provides a spring loaded latching mechanism incorporated into a sleeve pack assembly. The latching mechanism is automatically engaged during set-up of the assembly (without requiring additional steps from the operator). The latching mechanism can be easily disengaged with a push or kick of the foot of the operator and does not require the operator to bend, kneel or reach for the mechanism.
In accordance with one embodiment, the latching mechanism can be formed as a one piece, plastic spring which is particularly useful for instances requiring food safety. Other embodiments can be formed of multiple components and can include other materials, such as a steel spring.
The latching mechanism can be implemented on any type of sleeve pack regardless of the number of sides in the sleeve. For example, the latching mechanism can be used for a sleeve pack with a sleeve having three sides, or for one having four or more sides such as an octagon shaped sleeve with eight sides. Moreover the latching mechanism could be implemented with a sleeve sidewall having curvature, such as a cylindrical shaped sleeve with a circular cross-section.
In accordance with another embodiment, a sleeve pack assembly is provided with a latching mechanism that can be operated by a user in an upright position. The sleeve pack assembly comprises a sleeve having a first side, a second side, and a third side. Additionally, the sleeve can include a fourth side for a rectangular shape, or have more than four sides (such as an octagon shaped sleeve with eight sides). The sleeve is configured to have a first bottom opening and a second top opening when opened. When not in use, the sleeve can be folded and/or collapsed to provide for more efficient transport. At least one of the sides has a first aperture proximate a bottom portion of the at least one side.
The assembly also includes a pallet having a plurality of feet forming a base of the assembly. The pallet includes a channel proximate a periphery for receiving a bottom edge portion of each side of the sleeve.
The assembly also includes a latch mechanism having a spring element and a first prong coupled to the first spring element. The first prong is aligned with the first aperture of the sleeve such that the first prong extends through the first aperture when the sleeve is positioned in the channel. The latch mechanism also includes an engagement panel positioned on an outer surface of one of the plurality of feet, such as a center foot. Activation of the engagement panel (e.g., by an operator's foot) pushes back the spring element and the first prong, and disengages the first prong from the first aperture.
The assembly can be configured so that the sleeve includes a second aperture proximate the bottom portion of the at least one side spaced from the first aperture, and the latch mechanism includes a second prong aligned with the second aperture of the sleeve. The second prong is positioned to extend through the second aperture when the sleeve is positioned in the channel.
The first prong can include an inclined upper surface. This acts as a camming surface and moves the prong out of the way when installing the sleeve into the channel. Likewise, the second prong (and any additional prongs) can have an inclined upper surface.
The foot housing the latch mechanism can include a first window aligned with the first prong (and a second window aligned with the second prong) to allow for visual inspection of the mechanism. This enables an operator to determine that the sleeve is secured to the pallet.
The latch mechanism can be formed as a single plastic piece. Alternatively, the latch mechanism can include a plurality of components. In this alternative embodiment, the latch mechanism can include a steel spring element.
The assembly can also include a top cap. The top cap can be configured to include a latch mechanism.
The assembly can also include a first stop for preventing inward movement of the engagement panel past a set point. Similarly, the assembly can also include a second stop. The stops can include a flap that interacts with a boss in the pallet. The assembly can also include an opening or slot aligned with the boss to act as a guide for the latching mechanism.
In accordance with another embodiment of the invention, a sleeve pack assembly is provided comprising a collapsible sleeve having a first side, a second side, and a third side. Again, the sleeve can have a fourth side or more than four sides. The sleeve has a bottom opening and a top opening, a bottom portion of at least one of the sides has a first aperture. The assembly includes a pallet having a latching mechanism for securing the sleeve to the pallet. The latching mechanism includes a forward facing engagement panel in a side of the pallet, and an engagement member aligned to engage the aperture of the sleeve. The pallet can include a plurality of feet wherein the latching mechanism is positioned in one of the feet.
The latching mechanism further includes a spring element. The spring element can be a molded-in part integral with the engagement panel and engagement member. Alternatively, the spring element can be a separate component.
The sleeve pack assembly can include a second aperture in the sleeve spaced from the first aperture. The engagement member can then include a first prong aligned with the first aperture and a second prong aligned with the second aperture.
The latching mechanism can include a stop to prevent the engagement panel from being depressed beyond a set distance. The stop can be a flap that cooperates with structure in the pallet, such as a boss.
Additionally, the latching mechanism can include a guide slot that cooperates with structure in the pallet. The structure can be the boss.
Further aspects of the invention are disclosed in the Figures, and are described herein.
To understand the present invention, it will now be described by way of example, with reference to the accompanying figures in which:
While this invention is susceptible of embodiments in many different forms, there is shown in the Figures, 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 illustrated in
The sleeve 12 includes four sides and an open top and open bottom. The sleeve 12 can be a single piece, or can be formed from two or more pieces, such as one commonly referred to as a C-sleeve. As illustrated in
As shown in
As illustrated in the bottom view of
As shown in cross-section in
As illustrated in
The latching mechanism 18 is shown by itself in
As shown in
The kick-panel 24 is connected to a central shaft 36 which, in turn, is connected to a first arm 38 and a second arm 40. The first and second arms 38, 40 are connected to the first and second prongs 28, 29, respectively.
The latching mechanism 18 fits into a holder 42 (shown without the latching mechanism 18 in
The sleeve 14 can be removed by pushing or pressing in the kick panel 24 (this can be done with the user's foot). When the kick-panel 24 is pressed inward the spring elements 26 compress against the back wall portions 52, 54 (this also occurs when the sleeve 14 contacts the inclined surfaces of the prongs 28, 29 and forces the prongs backward). Additionally, the central shaft 36 moves the first and second arms 38, 40 backward which in turn, moves the first and second prongs 28, 29 back out of the apertures in the sleeve 14. The sleeve 14 can then be lifted out of the channel 30.
When pressure is released from the kick-panel 24, the spring elements 26 push the kick-panel 24 back in position flush with the outer wall of the foot 42. In this manner, the latching mechanism 18 is biased in a closed position (the open position is when the prongs 28, 29 are pushed back to allow for removal of the sleeve 14).
As shown in
As also shown in
As illustrated in
In one alternative embodiment, a latching mechanism as shown in the pallet 12, could be incorporated into a top cap or other similar structure applied to the top of a sleeve pack. In another alternative embodiment, the latch mechanism can be located in a corner foot of the pallet 12 or another portion of the pallet (e.g., between feet, or a side portion if the pallet does not include feet).
While two apertures and two prongs are shown in the Figures, the assembly could be formed with only one aperture and one prong, one long aperture or slot for two or more prongs, or two or more apertures and two or more prongs. Additionally, the assembly can include more than one latching mechanism (e.g., mechanisms on opposing sides of the pallet).
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.
The present invention claims the benefit of U.S. Provisional Patent Application No. 61/804,882, filed Mar. 25, 2013, the contents of which are incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
61804882 | Mar 2013 | US |