N/A
The present invention generally relates to a basket or tray for carrying items, such as bakery products; and more particularly, to a bakery tray that can be stacked in any of three orientations upon another such tray to provide for three different clearance heights between trays.
A large variety of trays exist for transporting and storing bakery items, such as bread or other similar products
U.S. Pat. No. 6,886,710 discloses a multi-purpose tray that can be stacked on a similar tray. The tray includes a front wall, a first side wall, a back wall and a second side wall extending upward from a rectangular bottom wall. When stacked in a similar orientation (the front, first side, second side and back walls of the top tray are positioned over the front, first side, second side and back walls, respectively, of the bottom tray), the top tray provides a first clearance height with respect to the bottom tray. That is, the bottom surface of the bottom wall of the top tray is a first distance from the top surface of the bottom wall of the bottom tray. This spacing is maintained as additional like trays are stacked on top of the first two trays in the same orientation. However, when a top tray is oriented 180° on a bottom tray (the front, first side, second side and back walls of the top tray are positioned over the back, second side, first side and front walls, respectively, of the bottom tray), the top tray provides a second clearance height with the bottom tray different than the first clearance height. This allows for flexibility in use of the trays to transport particular items.
Other trays allow for stacking at three different clearance height levels by providing a moveable bar or other moveable components to engage a like tray. One such tray includes a metal or plastic bail arm that is positioned along the top edge of the side walls. When the bail arm is in a first, down position, the trays stack at a first level with like walls aligned. When the bail arm is moved to a second, up position the trays stack at a second level with like walls aligned. Finally, with the bail arm in the up position, the trays stack at a third level with the top tray rotated 180° with respect to the lower tray so that the front wall of the top tray is aligned with the back wall of the bottom tray. The moveable parts require additional assembly (during manufacture) and handling (i.e., moving the arm) when used.
Due to the high volume of trays needed, it is important to make such trays as efficient as possible.
The present invention provides a basket or tray preferably formed from a molded plastic for carrying items, such as bakery-type items (e.g., bread, bagels, etc.), that provides additional flexibility in transporting such items. The tray includes a front wall, a first side wall, a second side wall and a back wall all extending upward from a bottom wall. The tray is provided with a variety of molded structures to enable one tray to stack on another like tray. In this regard, the present tray is configured to stack on like trays in any of three different orientations and provide three different clearance heights without having or requiring any moveable bars or other moveable components to facilitate such stacking. Accordingly a particular orientation can be utilized to choose the most efficient clearance height for the item at issue to maximize transportation volume.
The tray is provided with a square base to enable it to be stacked in any of the three orientations upon another similar tray. Each orientation involves particular structure to enable the stacked trays to provide a different clearance height between the upper surface of the bottom wall of the lower tray with the lower surface of the bottom wall of the upper tray.
In a first orientation, the front wall, first side wall, second side wall and back wall of a top or upper tray are positioned directly over the front wall, first side wall, second side wall and back wall of a bottom or lower tray. In this orientation, the trays stack in a manner to provide a first clearance height between the bottom surface of the bottom wall of the upper tray and the top surface of the bottom wall of the lower tray.
In a second orientation, the upper tray is rotated 180 degrees so that the front wall of the upper tray is positioned over the back wall of the lower tray and the back wall of the upper tray is positioned over the front wall of the lower tray. This places the first side wall of the upper tray over the second side wall of the lower tray and the second side wall of the upper tray over the first side wall of the lower tray. In this orientation, a second clearance height is provided between the upper tray and the lower tray different than the first clearance height.
The trays can be stacked in a third orientation in one of two ways. In a first way, the upper tray can be turned 90° counter-clockwise. In this position, the front wall of the upper tray is positioned over the first side wall of the lower tray and the back wall of the upper tray is positioned over the second side wall of the lower tray. In this position, the first side wall of the upper tray is positioned over the back wall of the lower tray and the second side wall of the upper tray is positioned over the front wall of the lower tray. In the second way, the tray is turned 90° clockwise. In this position, the front wall of the upper tray is positioned over the second side wall of the lower tray and the back wall of the upper tray is positioned over the first side wall of the lower tray. This causes the first side wall of the upper tray to be positioned over the front wall of the lower tray and the second side wall of the upper tray to be positioned over the back wall of the lower tray.
In accordance with one embodiment of the invention, a third clearance height is provided (different than both the first clearance height and the second clearance height) regardless of which way is used (e.g., clockwise or counter-clockwise) to achieve the third orientation. However, in accordance with another embodiment of the invention, each way could provide a different clearance height in order to enable the tray to have four different clearance heights.
In accordance with one embodiment of the invention, a tray is provided for transporting items. The tray comprises a bottom wall supporting first and second side walls, a front wall and a back wall, each of the side walls, front wall and back wall extending upward from a top surface of the bottom wall. The tray includes a non-moveable first stacking structure for stacking the tray with a like tray in a first orientation to provide a first clearance height between the trays, a non-moveable second stacking structure for stacking the tray with a like tray in a second orientation to provide a second clearance height between the trays different than the first clearance height and, a non-moveable third stacking structure on the tray for stacking the tray with a like tray in a third orientation to provide a third clearance height between the trays different than the first clearance height and the second clearance height. The tray can be formed from molded plastic or other suitable materials.
The first stacking structure can include a first foot structure positioned at a first distance from the front wall on an outer lower portion of the first side wall and a first upper ledge portion aligned with the first foot structure. The first stacking feature also includes a second foot structure positioned at a first distance from a back wall on the outer lower portion of the first side wall and a second upper ledge portion aligned with the second lower foot structure. This first distance can be close to or at the end of the side wall close to the front or back wall respectively.
The first stacking structure can further include a first foot structure positioned a second distance from the front wall greater than the first distance on an outer lower portion of the second side wall and a first upper ledge portion on the second side wall aligned with the first foot structure of the second side wall. Also, the first stacking feature includes a second foot structure positioned the second distance from the back wall on the outer lower portion of the second side wall and a second upper ledge portion on the second side wall aligned with the second foot structure of the second side wall. The first stacking feature provides a first product clearance height between two stacked trays.
The second stacking structure can include a first upper ledge portion and a second upper ledge portion on the front wall and a first upper ledge portion and a second upper ledge portion on the back wall. The first upper ledge portion and the second upper ledge portion on the front wall and the first upper ledge portion and the second upper ledge portion on the back wall are lower than the first upper ledge portion and second upper ledge portion of the first side wall and the first upper ledge portion and second upper ledge portion of the second side wall. This provides a second product clearance height between two trays when stacked.
The third stacking structure can include a first lower ledge portion on the first side wall at the second distance from the front wall, and a second lower ledge portion at the second distance from the back wall. It also includes a first lower ledge portion on the second side wall at the first distance from the front wall and a second lower ledge portion the first distance from the back wall. The first and second lower ledge portion of the first side wall and the first and second lower ledge portions of the second side wall are lower than the first and second upper ledge portions of the front wall and the first and second upper ledge portions of the back wall. This provides a third product clearance height between two trays when stacked.
The first stacking structure is configured to require the tray to be stacked on the like tray with the first and second side walls, front wall and back wall of the tray being aligned with the first and second side walls, front wall and back wall, respectively, of the like tray. The second stacking structure is configured to require the tray to be stacked on the like tray with a 90° rotation from an alignment of the first and second side walls, front wall and back wall of the tray with the first and second side walls, front wall and back wall, respectively, of the like tray. The third stacking structure is configured to require the tray to be stacked on the like tray with a 180° rotation from an alignment of the first and second side walls, front wall and back wall of the tray with the first and second side walls, front wall and back wall, respectively, of the like tray.
In accordance with another embodiment of the invention, a tray for transporting items comprises a square bottom wall supporting a first side wall and a second side wall, a front wall and a back wall, each of the side walls, front wall and back wall extending upward from a top surface of the bottom wall. The tray includes a first bottom support structure and a first top structure. The first bottom structure is configured to mate with the first top structure so that when the tray is stacked on a second like tray with the front wall of the tray aligned with and positioned over the front wall of the second tray, the two trays stack to a first height between an upper surface of the bottom wall of the second tray and the bottom surface of the tray.
The tray includes a second top structure. The first bottom support structure is configured to mate with the second top structure so that when the tray is stacked on a second like tray with the front wall aligned with and positioned over one of the first and second side walls of the second tray, the two trays stack to a second height between the upper surface of the bottom wall of the second tray and the bottom surface of the tray that is different from the first height.
The tray also includes a third top structure. The first bottom support structure is configured to mate with the third top structure when the tray is stacked on a second identical tray with the front wall of the first tray aligned with and positioned over the back wall of the second tray, the two trays stack to a third height between the upper surface of the bottom wall of the second tray and the bottom surface of the tray that is different than the first height and the second height.
The bottom support structure can comprise a first foot structure positioned on a lower outer portion of the first side wall proximate the front wall, a second foot structure positioned on the lower outer portion of the first side wall proximate the back wall. The bottom structure can also comprise a first foot structure positioned on a lower outer portion of the second side wall a first distance from the front wall, and a second foot structure positioned on the lower outer portion of the second side wall the first distance from the back wall.
The first top structure can comprise a first upper ledge portion at a first height above the bottom wall on the first side wall aligned with the first foot structure of the first side wall, a second upper ledge portion at the first height above the bottom wall on the first side wall aligned with the second foot structure of the first side wall. The first top structure can also comprise a first upper ledge portion on the second side wall at the first height above the bottom wall aligned with the first foot structure on the second side wall, and a second upper ledge portion on the second side wall at the first height above the bottom wall aligned with the second foot structure of the second side wall.
The second top structure can comprise a first upper ledge portion on the front wall at a second height above the bottom wall lower than the first height positioned to support one of the first foot structure of the first side wall and the first foot structure of the second side wall of a like tray, a second upper ledge portion on the front wall at the second height above the bottom wall to support one of the second foot structure of the first side wall and the second foot structure of the second side wall of a like tray. The second top structure can also comprise a first upper ledge portion on the back wall at the second height above the bottom wall positioned to support one of the first foot structure of the first side wall and the first foot structure of the second side wall of a like tray, and a second upper ledge portion on the back wall at the second height above the bottom wall positioned to support one of the second foot structure of the first side wall and the second foot structure of the second side wall of a like tray.
The third top structure can comprise a first lower ledge portion on the first side wall at a third height above the bottom wall lower than the second height positioned the first distance from the front wall, a second lower ledge portion on the first side wall at the third height above the bottom wall positioned the first distance from the back wall. The third top structure can also comprise a first lower ledge portion on the second side wall at the third height above the bottom wall positioned proximate the front wall, and a second lower ledge portion at the third height above the bottom wall proximate the back wall.
In practice, the trays can be stacked manually or by stacking machinery. Stacking machinery is typically arranged or configured to place one tray vertically on top of a lower tray in perfect alignment (i.e., the four walls of the top tray are positioned above four walls of the bottom tray—the exact walls depending on the orientation of the top tray with respect to the bottom tray). However, in a typical manual stacking operation, an upper tray is placed on the lower tray so that two of the foot structures are positioned somewhere along the upper ledge or channel portions, and the tray is then slid over until the walls are aligned. In certain orientations, the foot structures will slide until they encounter the lower ledge or channel portions. That is, the foot structure rides the ledge until it drops in the wells created by the lower ledge or channel portions. The lower ledge or channel portions can include ramps to facilitate the sliding on procedure, or can be used in a reverse manner to allow one to manually slide the top tray off the lower tray.
Further aspects of the invention are disclosed in the description of the invention, including the Figures and/or Attachments.
To understand the present invention, it will now be described by way of example, with reference to the accompanying drawings and/or attachments 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.
The Figures disclose a plastic tray for transporting items such as bakery products. The tray includes a front wall, first and second side walls and a back wall extending upward from a square bottom wall. The tray is configured to allow one tray to stack on another identical or substantially identical tray in any orientation. That is, the trays include stacking structures so that the trays can be in one of three different configurations: (1) in a first configuration a top tray can align with a bottom tray when stacked upon it (i.e., all of the front, side and back walls of the top tray align with the front, side and back walls of the bottom tray); (2) in a second configuration the top tray can be turned 90° to the right, or clockwise, or 90° to the left, or counterclockwise (i.e., the side walls of the top tray are positioned over the front and back walls of the bottom tray); or (3) in a third configuration the top tray can be turned 180° around (i.e., the back wall of the top tray is aligned or positioned over the front wall of the bottom tray, and the front wall of the top tray is aligned or positioned over the back wall of the bottom tray). The trays are further designed so that each stacking configuration provides a different clearance height—the space between the top surface of the bottom wall of the lower tray and the bottom surface of the bottom wall of the top tray—for items (e.g., bakery products) placed on the lower tray. This allows for use of the trays at three different clearance heights which can be utilized in the most efficient manner depending on the type of items or products (i.e., the height of the items or products) being transported.
The stacking features of the trays do not include any moveable bars or other moveable components. Rather, it is the orientation of one tray with the next that determines the clearance height. In this regard, the stacking structures are preferably molded into the trays.
In one embodiment, the tray 10 includes a front and a back and two side walls extending upward from the base. The two side walls each include a handle. Each of the front wall and back wall includes an opening which allows for visible inspection of the contents in the tray even when another tray is stacked on it.
Each tray 10, 11 includes a right side wall 12 and an opposing left side wall 14 (directional qualifiers are used with respect to the orientation of the tray or trays as shown in the Figures and are not meant to limit the scope of the invention—for example, the right and left side walls could also be referred to as the first and second side walls, which would be true regardless of the orientation or viewpoint of the tray in the Figure). The side walls 12, 14 may also be sometimes referred to as end walls.
The trays 10, 11 also include a front wall 16 and a back wall 18. Each of the side walls 12, 14, front wall 16, and back wall 18 extend upward and surround a square bottom wall 20. The right and left side walls 12, 14 extend to a top edge 21 having a first height above the bottom wall 20. The top edge 21 extends substantially from one end of each side wall 12, 14 to an opposing second end (i.e. from the juncture with the front wall 16 to the juncture with the back wall 18).
In
In this configuration, the trays 10, 11 stack with each other to provide a first product clearance position having a first product clearance height for items placed on the lower tray 10. This first product clearance height (identified in
Referring to
In this configuration, the first and second trays 10, 11 stack at a second product clearance height less than the first product clearance height (identified in
In this configuration the first and second trays 10, 11 stack at a third product clearance height that is less than the second product clearance height (and therefore also less than the first product clearance height).
Referring to
With reference to
As illustrated in the enlarged view in
Referring to
The upper and lower ledge or channel portions are support structures or surfaces on the inner side of the respective walls. The upper ledge or channel portions are near or at the top of the walls, and the lower portions are positioned below the upper portions and include recesses in the walls to allow for positioning of the foot structures.
Similarly, with reference to
Referring to
The front side wall 16 includes a central lower wall portion 69 to allow for visible inspection of the product. At either end of the central lower wall portion, the front side wall 16 also includes a first upper ledge or channel portion 71 and a second upper ledge or channel portion 73.
Referring to
The positioning of the foot structures, guides, slots, and upper and lower ledge or channel portions or segments enables two like trays (having at least similar stacking structure in this regard) to stack in a manner to provide the different product clearance heights. Each height depends on the orientation between the lower tray and the upper tray.
In the first configuration (shown in
In the second configuration, the upper tray 11 is rotated 90° counterclockwise. In this configuration, the first foot structure 32 of the right side wall 12 of the upper tray 11 is positioned to rest on the first upper ledge or channel portion 77 of the back wall 18 of the lower tray 10, and the second foot structure 34 is positioned to rest on the second upper ledge or channel portion 79. The first foot structure 36 of the left side wall 14 of the upper tray 11 is positioned to rest on the first upper ledge or channel portion 71 of the front wall 16 of the lower tray 10, and the second foot structure 38 is positioned to rest on the second upper ledge or channel portion 73. Additionally, the center guide 68 of the front wall 16 of the upper tray 11 is positioned to fit in the slot 63 of the right side wall, and the center guide 74 of the back wall 18 is positioned to fit in the slot 51 of the left side wall 14. Because the upper ledge or channel portions of the front and back side walls are lower than those on the right and left side walls, the product clearance height in the second configuration is less than the product clearance height in the first configuration.
In the third configuration, the upper tray 11 is positioned 180° around with respect to the lower tray 10. In this configuration, the front wall 16 and the back wall 18 of the upper tray 11 are positioned over the back wall 18 and the front wall 16 of the lower tray 10, respectively. The right side wall 12 of the upper tray 11 is positioned over the left side wall 14 of the lower tray 10, and the left side wall 14 of the upper tray 11 is positioned over the right side wall 12 of the lower tray 10.
In the third configuration, the foot structure 32 of the right side wall 12 of the upper tray 10 rests on the lower ledge or channel 48 of the left side wall 14 of the lower tray 10 with the guide 40 being positioned in the slot 50, and the foot structure 34 rests on the lower ledge or channel 46, again with the guide 40 being positioned in the slot 50. Similarly, the foot structure 36 of the left side wall 14 of the upper tray 11 is positioned in the lower ledge or channel portion 56 of the right side wall 12 of the lower tray 10, and the foot structure 38 is positioned on the lower ledge or channel portion 58, again with the guides 40 being positioned in the respective slots 62. Because the lower ledge or channel portions 56, 58 are lower than the ledge or channel portions of the front wall 16 and back wall 18, the product clearance height in this configuration is less than the second configuration (and therefore also the first configuration).
Because the upper ledge or channel portions of the front wall 16 and back wall 18 are all the same height, it doesn't matter if the upper tray is turned 90° clockwise or counterclockwise. However, because the foot structures of the right side wall 12 are not aligned with the foot structures of the left side wall 14, it is possible to form another embodiment of the invention where the upper ledge or channel portions in the front wall 16 and back wall 18 have two different levels so that movement clockwise provides one product height level and movement counterclockwise provides a different product height level. The trays would be able then to be positioned to have one of four different product height levels.
While the right and left side walls include a central upper ledge or channel portion that extends substantially from one end to the other of the side wall, it is evident the central portion on the right side wall only needs to accommodate the center guide of either the front side wall or the back side wall, and the central portion of the left side wall only needs to accommodate the foot structures of the left side wall of a like tray as well as the center guide. The remaining portions can be removed if desired.
As set forth above, the structures for stacking the trays in the various orientations and clearance heights are not moveable (and are preferably integrally formed with the other aspects of the tray). Accordingly, such trays do not require bail arms. This reduces the cost and time to manufacture such trays as well as any set up requiring movement of the bail arm. Additionally, such trays do not have any other problems associated with moving parts (e.g., repair or part replacement).
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 application claims the benefit of U.S. Provisional Patent Application No. 61/467,213 filed Mar. 24, 2011, the contents of which are incorporated herein by reference.
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