This application relates to an organizer, and more specifically to a flip bin organizer having a plurality of bins that are pivotally engaged to the organizer. The flip bin organizer further includes a locking mechanism that is configured to selectively lock the bins in their fully closed position.
Organizers are well known. They are commonly used to separate and transport a variety of small accessories, such as screws, nuts, bolts, washers, etc. Organizers typically have a housing and a plurality of bins. Each bin is typically dedicated to a single item and tradespersons are constantly moving between the bins to find and use the appropriate accessory.
The ways in which tradespersons work with organizers are as diverse as the tradespersons themselves. For example, some tradespersons move often from bin to bin. They are constantly opening and closing bins as is necessary. For this, unfettered access to each bin is required. Conversely, other persons may wish to work with only one or two bins at a time. These bins may remain open while all of the others are locked in their closed position. Still others like to work by removing bins from the organizer housing entirely.
There is a need in the art for an improved organizer that is capable of selectively locking and unlocking of bins and simultaneously accommodating all of the ways in which tradespersons use an organizer. The present invention addresses one or more of the above referenced issues.
The present invention relates to an organizer including a housing having one or more compartments for receiving a bin. The organizer also includes a first bin disposed in a compartment and comprising a front panel, a back panel, a right side panel, a left side panel, and a bottom panel all of which define an interior portion, wherein said first bin is pivotally attached within the compartment, and is configured to reciprocally move between an open position, a first closed position and a fully closed position, wherein the first closed position is between the open position and the fully closed position, and wherein in the open position, access to the interior portion is unimpeded, and in the first closed position, access to the interior portion is impeded, but the bin is not lockable, and in the fully closed position access to the interior portion is impeded and the bin may selectively be locked in position. The organizer also includes a locking mechanism for selectively locking one or more bins in their fully closed position, wherein said locking mechanism is configured to reciprocally move between an unlocked position and a locked position. In the unlocked position, a bin may freely move between its open position and its fully closed position. In the locked position, a bin in its fully closed position is locked in place, and a bin in its open position or its first closed position, is freely movable between said positions. Also, when the locking mechanism is in the locked position, a bin in its first closed position may be moved to the fully closed position at which point it will become locked in place.
Embodiments of the invention will now be described by way of example with reference to the drawings in which:
As shown in
As is shown in
In addition to the bin engagement protrusions 30, each compartment 14 may further include a bin stop protrusion 34. The bin stop protrusion 34, which may preferably have an angled orientation, is configured to engage a bin stop engagement portions 36. As show in
The pivotal movement of bin 16 within compartment 14 is such that an upper edge 38 of the back panel 20 moves along an arcuate path as the bin moves from its fully closed position to its open position. Similarly, the respective upper edges 40, 42 of the right side panel 24 and left side panel 22 are also preferably arcuate. As shown in the cutaway view of
Organizer 10 also includes a selectively operable locking mechanism 46. Locking mechanism 46 comprises a locking switch 48, a locking arm 50, a locking plate 52, and at least one spring 54. The components of locking mechanism 46 are configured to move between a unlocked position and a locked position. In the unlocked position, each bin 16 of the organizer 10 is freely movable between its open position and its fully closed position. When the locking mechanism 46 is in its closed position, each bin 16 that is in its fully closed position becomes securely locked in place. However, bins 16 that are in the open position may freely move between said open position and a first closed position. In this first closed position, which is in between the open position and fully closed position, access to the interior portion 28 is impeded but the bin 16 is not lockable. If the locking mechanism 46 is in its locked position and bin 16 is in the first closed position, if so desired, the bin 16 may be moved into its fully closed position where it will become locked in place. As will be shown below, locking mechanism 46 can accomplish this without unlocking any other bins 16 that are already locked in their fully closed position.
The locking switch 48 of locking mechanism 46 is accessible from the exterior of the housing 12. Locking switch 48 is configured to move between a first position and a second position, wherein the first position coincides with the unlocked position of locking mechanism 46 and the second position coincides with the unlocked position of the locking mechanism 46. As shown in
Locking switch 48 is connected to locking arm 50. Locking arm 50 may be disposed within the housing 12 and may not be generally accessible except through the locking switch 48. As shown in
Like the locking switch 48, locking plate 52 is configured to move between a first position and a second position, wherein the first position coincides with the unlocked position of the locking mechanism 46 and the second position coincides with the locked position of the locking mechanism 46. As shown in
The locking mechanism 46 may also include one or more springs 54. Spring 54 may be disposed between the housing 12 and the locking plate 52. Locking plate 52 may also include one or more spring receiving portions 68. Spring 54 may bias the locking plate 52 toward its second position.
Those skilled in the art will recognize that the organizer 10 of the present application may also include a back-to-back latch 78 that is configured to engage a latch engaging region 80 on another organizer. When engaged, the back-to-back latch permits two organizers to be secured to one another such that the bins 16 from both organizers are accessible simultaneously. Similarly, organizer 10 may also include one or more stacking latches 82. Stacking latches 82 may be configured to engage latch engaging regions 80 on adjacent containers or items such that the organizer 10 can be in stacking engagement therewith. Finally, those skilled in the art will recognize that a handle 84 may be included to allow for easy transportation of the organizer 10.
It may be appreciated that any of the components discussed in the organizer of the present application may be formed from any appropriate material in various embodiments, including metals, plastics, and combinations thereof. Additionally, in some embodiments components described above may be assemblies of subcomponents. Additionally, various components may be formed integral to one another. Assemblies of components together may be by any appropriate mechanism, including but not limited to adhesion, welds, snap fit, and fastening with fasteners (including but not limited to bolts, screws, rivets, etc.). Other modifications to the disclosure herein provided may be understood as being within the scope of claims enabled by this disclosure.
In operation, as discussed above, the locking mechanism 46 is configured to move between an unlocked and a locked position. In the unlocked position, the locking switch 48 may be in its first position. In this first position of the locking switch 48, the locking arm 50, which is connected to the locking arm 48, is positioned such that the outer edge 60 of ramp portion 58 is engaged to the locking plate 52 at a high end 70 of the ramp portion 58. When the outer edge 60 of the ramp portion 58 engages the space 66 defined by the locking arm protrusions 64 at the high end 70, the entirety of the locking plate 52 is moved against the bias of spring 54 and toward its first position. In this first position, each bin engaging protrusion 62 is lifted out of contact with the back panel 20 of bin 16. Thus, bin 16 is freely movable between its fully closed position and its open position.
Conversely, when the locking mechanism is in its locked position, the locking switch 48 is toggled to its second position. In this position, the locking arm 50, which is connected to the locking switch 48, is oriented such that a low end 72 of the ramp portion 58 is engaged to the locking plate 52. When the outer edge 60 of ramp portion 58 engages the space 66 defined by the locking arm protrusions 64 at the low end 72, the entirety of the locking plate 52 is moved toward its second position. In this second position, each bin engaging protrusion 62 is moved downward such that it is in locking engagement with the back panel 20 of any bin 16 that is in the fully closed position.
When the locking mechanism 46 is in its locked position, a bin 16 may be its open position. If this occurs, bin 16 will be free to move between the open position and the first closed position, wherein the back panel 20 may be in contact with the bin engaging protrusion 62 of the locking plate 52, but not in locking engagement therewith. Instead, the back panel may merely lean against a tapered face 74 of the bin engaging protrusion 62. Bin engaging protrusion 62 may also include a flexible arm 76. The tapered face 74 and flexible arm 76 of the bin engaging protrusion allow for a bin 16 to move from the first closed position to the fully closed position, without unlocking any other bins from their fully closed position. This may be accomplished by applying pressure to the bin 16 such that the upper edge 38 of the back panel 20, slides along the tapered face 74. As bin 16 is moved closer toward the fully closed position, flexible arm 76 may flex a bit to move the entirety of bin engaging protrusion 62 out of position a bit to allow the bin 16 to settle into its fully closed position. When this occurs, the flexible arm 76 will move the bin engaging protrusion back into its original position, wherein it locks the bin 16 securely in its fully closed position. Thus, a bin 16 is able to move between its first closed position and its fully closed position without unlocking any other bins that may already be secured in their fully closed position.
This application claims priority to U.S. Provisional Patent Application Ser. No. 62/587,553 filed Nov. 17, 2017, which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
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62587553 | Nov 2017 | US |