PLATE ATTACHMENT ASSEMBLY

Abstract

A plate attachment assembly that includes a first plate shell and a second plate shell configured to interlock with one another. The first plate shell comprises a bottom wall and a surrounding sidewall with a flange disposed around the perimeter. The flange includes at least one locking tab with a locking protrusion. The second plate shell comprises a bottom wall and a surrounding sidewall with a flange disposed around the perimeter. The flange includes at least one locking tab receiving aperture and a notch shaped to correspond with the locking protrusion of the first plate shell. The first and second plate shells also include various different support walls on a bottom surface configured to secure the assembly to a drinking cup and/or another plate attachment assembly.

Claims

1. A plate attachment assembly comprising: a first plate shell having a bottom wall and a sidewall surrounding the bottom wall and having an upper end with a flange disposed around a perimeter thereon, the flange including a locking tab disposed thereon, the locking tab having: an upright locking portion with an upper end and an inner surface; a lateral locking portion coupled to and extending away from the upper end of the upright locking portion and with an inner surface, the inner surfaces of the upright and lateral locking portions of the locking tab defining a secondary flange receiving channel; and a locking protrusion coupled to and extending downwardly from the inner surface of the lateral locking portion of the locking tab and with a distal free end terminating in the secondary flange receiving channel; and a second plate shell having a bottom wall and a sidewall surrounding the bottom wall and having an upper end with a flange disposed around a perimeter thereon, the flange including a lower surface, an upper surface, and defining a locking tab receiving aperture disposed thereon, the locking tab receiving aperture shaped and sized to receive the lateral locking portion of the locking tab and a portion of the upright locking portion, the first plate shell and second plate shell are operably configured to selectively removably couple together, though the locking protrusion of the locking tab, in a locking configuration.

2. The plate attachment assembly according to claim 1, wherein: the distal free end of the locking protrusion is rounded.

3. The plate attachment assembly according to claim 2, wherein the lower surface of the flange of the second plate further comprises: a notch defined thereon and of a shape corresponding to the rounded distal free end of the locking protrusion.

4. The plate attachment assembly according to claim 3, wherein the flange of the second plate further comprises: a ramp disposed proximal to the locking tab receiving aperture and ascending toward the lower surface of the flange of the second plate and toward the notch defined on the lower surface of the flange of the second plate.

5. The plate attachment assembly according to claim 4, wherein the flange of the second plate further comprises: a locking tab receiving channel disposed adjacent to the ramp, disposed adjacent to the notch, and spatially coupled to the locking tab receiving aperture.

6. The plate attachment assembly according to claim 5, wherein: the locking tab receiving channel is shaped and sized to receive the upright locking portion of the locking tab.

7. The plate attachment assembly according to claim 1, wherein the secondary flange receiving channel of the locking tab further comprises: a receiving channel length separating the inner surface of the lateral locking portion of the locking tab and a lower end of the upright locking portion of the locking tab, the lower end of the upright locking portion of the locking tab opposing the upper end of the upright locking portion of the locking tab, wherein the receiving channel length greater than a first flange thickness separating the lower surface and the upper surface of the flange of the second plate shell.

8. The plate attachment assembly according to claim 1, further comprising: a second locking tab disposed on the flange of the first plate shell and having: an upright locking portion with an upper end and an inner surface; a lateral locking portion coupled to and extending away from the upper end of the upright locking portion of the second locking tab and with an inner surface, the inner surfaces of the upright and lateral locking portions of the second locking tab defining a second secondary flange receiving channel; and a locking protrusion coupled to and extending downwardly from the inner surface of the lateral locking portion of the second locking tab and with a distal free end terminating in the second secondary flange receiving channel; and a second locking tab receiving aperture disposed on the flange of the second plate shell, the second locking tab receiving aperture shaped and sized to receive the lateral locking portions of the locking tab and a portion of the upright locking portions of both the locking tab and the second locking tab, wherein the locking tab and the second locking tab are disposed on opposing sides of the first plate shell and the locking tab receiving aperture and the second locking tab receiving aperture are disposed on opposing sides of the second plate shell.

9. The plate attachment assembly according to claim 8, wherein the secondary flange receiving channel of the locking tab and the second secondary flange receiving channel of the second locking tab each further comprise: a receiving channel length separating the inner surface of the lateral locking portion thereon and a lower end of the upright locking portion thereon, the lower end of the upright locking portion opposing the upper end of the upright locking portion, wherein the receiving channel length is greater than a first flange thickness separating the lower surface and the upper surface of the flange of the second plate shell.

10. The plate attachment assembly according to claim 1, wherein a bottom surface of the bottom wall of the first plate shell further comprises: a first cup support sidewall protruding therefrom, of a circular shape, and defining a circular area shaped and sized receive an upper end diameter of a drinking cup.

11. The plate attachment assembly according to claim 10, wherein: the circular area of the cup support sidewall is within a range of approximately 2.5-3.5 inches.

12. The plate attachment assembly according to claim 10, wherein the bottom surface of the bottom wall of the first plate shell further comprises: a second cup support sidewall protruding therefrom, of a circular shape, and defining a circular area shaped and sized, within a range of approximately 3.5-4.25 inches, to receive an upper end diameter of a larger-sized drinking cup, the first cup support sidewall concentrically disposed in relation to the second cup support sidewall and with the circular area less than the circular area of the second cup support sidewall.

13. The plate attachment assembly according to claim 1, wherein a bottom surface of the bottom wall of the first and second plate shells further comprise: a first plurality of plate support sidewalls protruding therefrom, defining a middle channel therein between, and of a circular shape; a second plurality of plate support sidewalls protruding therefrom, defining a middle channel therein between, of a circular shape, and opposing the first plurality of plate support sidewalls; a first plate locking member interposed between the first and second plurality of plate support sidewalls and with a uniform thickness less than the middle channels defined by the first and second plurality of plate support sidewalls; and a second plate locking member interposed between the first and second plurality of plate support sidewalls, opposing the first plate locking member, and with a uniform thickness less than the middle channels defined by the first and second plurality of plate support sidewalls.

14. A plate attachment assembly comprising: a first plate shell having a bottom wall, with a bottom surface, and a sidewall surrounding the bottom wall and having an upper end with a flange disposed around a perimeter thereon, the flange including a locking tab disposed thereon and the bottom surface of the bottom wall including a first cup support sidewall protruding therefrom, of a circular shape, and defining a circular area shaped and sized receive an upper end diameter of a drinking cup; and a second plate shell having a bottom wall, with a bottom surface, and a sidewall surrounding the bottom wall and having an upper end with a flange disposed around a perimeter thereon, the flange including a lower surface, an upper surface, and defining a locking tab receiving aperture disposed thereon, the locking tab receiving aperture shaped and sized to receive the locking tab, wherein the first plate shell and second plate shell are operably configured to selectively removably couple together, though the locking tab, in a locking configuration.

15. The plate attachment assembly according to claim 14, wherein the bottom surface of the bottom wall of the first plate shell further comprises: a second cup support sidewall protruding therefrom, of a circular shape, and defining a circular area shaped and sized receive an upper end diameter of a larger-sized drinking cup, the first cup support sidewall concentrically disposed in relation to the second cup support sidewall and with the circular area less than the circular area of the second cup support sidewall.

16. The plate attachment assembly according to claim 14, wherein the bottom surface of the bottom wall of the first and second plate shells further comprise: a first plurality of plate support sidewalls protruding therefrom, defining a middle channel therein between, and of a circular shape; a second plurality of plate support sidewalls protruding therefrom, defining a middle channel therein between, of a circular shape, and opposing the first plurality of plate support sidewalls; a first plate locking member interposed between the first and second plurality of plate support sidewalls and with a uniform thickness less than the middle channels defined by the first and second plurality of plate support sidewalls; and a second plate locking member interposed between the first and second plurality of plate support sidewalls, opposing the first plate locking member, and with a uniform thickness less than the middle channels defined by the first and second plurality of plate support sidewalls.

17. The plate attachment assembly according to claim 16, wherein: the first plurality of plate support sidewalls each have opposing ends with a sidewall portion extending inwardly toward a center of the bottom wall and substantially orthogonal to a portion of the plurality of plate support sidewalls in which the sidewall portion extends from.

18. The plate attachment assembly according to claim 16, wherein the locking tab of the first plate shell includes: an upright locking portion with an upper end and an inner surface; a lateral locking portion coupled to and extending away from the upper end of the upright locking portion and with an inner surface, the inner surfaces of the upright and lateral locking portions of the locking tab defining a secondary flange receiving channel; and a locking protrusion coupled to and extending downwardly from the inner surface of the lateral locking portion of the locking tab and with a distal free end terminating in the secondary flange receiving channel, wherein the flange of the second plate shell defines a locking tab receiving aperture disposed thereon that is shaped and sized to receive the lateral locking portion of the locking tab and a portion of the upright locking portion, the first plate shell and second plate shell are operably configured to selectively removably couple together, though the locking protrusion of the locking tab, in a locking configuration.

19. The plate attachment assembly according to claim 18, wherein the lower surface of the flange of the second plate further comprises: a notch defined thereon and of a shape corresponding to a rounded distal free end of the locking protrusion.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0039] The accompanying figures, where like reference numerals refer to identical or functionally similar elements throughout the separate views and which together with the detailed description below are incorporated in and form part of the specification, serve to further illustrate various embodiments and explain various principles and advantages all in accordance with the present invention.

[0040] FIG. 1 is a perspective view of a plate attachment assembly according to one embodiment of the present invention;

[0041] FIG. 2 is a perspective view of the first plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0042] FIG. 3 is a perspective view of the first plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0043] FIG. 3A is a perspective view of the first plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0044] FIG. 4 is an elevational view of the first plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0045] FIG. 4A is a fragmentary close-up view of a locking tab of the first plate shell in FIG. 1 in accordance with one embodiment of the present invention;

[0046] FIG. 5 is an elevational view of the first plate shell in FIG. 1 attached to a drinking cup in accordance with an exemplary embodiment of the present invention;

[0047] FIG. 6 is a perspective view of the first plate shell in FIG. 1 attached to a drinking cup in accordance with an exemplary embodiment of the present invention;

[0048] FIG. 7 is a perspective view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0049] FIG. 8 is a perspective view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0050] FIG. 8A is a fragmentary close-up view of a lower surface of a flange of the second plate shell in FIG. 1 in accordance with one embodiment of the present invention;

[0051] FIG. 9 is an elevational side view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0052] FIG. 10 is a cross-sectional view of the second plate shell in FIG. 1 taken along section line A-A of FIG. 9, in accordance with the present invention;

[0053] FIG. 10A is a fragmentary close-up cross-sectional view of a locking tab of the second plate shell in FIG. 1 taken along section line A-A of FIG. 9, in accordance with the present invention;

[0054] FIG. 11 is a top plan view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0055] FIG. 12 is a bottom plan view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0056] FIG. 13 is an elevational view of the second plate shell in FIG. 1 to be used in accordance with one embodiment of the present invention;

[0057] FIG. 14 is a perspective view of another exemplary embodiment of a plate attachment assembly in accordance with the present invention;

[0058] FIG. 14A is a fragmentary close-up view of another exemplary embodiment of a plate attachment assembly in accordance with the present invention;

[0059] FIG. 15 is a perspective view of a plate attachment assembly according to one embodiment of the present invention; and

[0060] FIG. 16 is a perspective view of a plate attachment assembly with multiple plate shells coupled together in accordance with one embodiment of the present invention.

DETAILED DESCRIPTION

[0061] While the specification concludes with claims defining the features of the invention that are regarded as novel, it is believed that the invention will be better understood from a consideration of the following description in conjunction with the drawing figures, in which like reference numerals are carried forward. It is to be understood that the disclosed embodiments are merely exemplary of the invention, which can be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for future claims and as a representative basis for teaching one of ordinary skill in the art to variously employ the present invention in virtually any appropriately detailed structure. Further, the terms and phrases used herein are not intended to be limiting; but rather, to provide an understandable description of the invention. It is believed that the invention will be better understood from a consideration of the following description in conjunction with the drawing figures, in which like reference numerals are carried forward. The figures of the drawings are not drawn to scale.

[0062] The present invention provides a novel and efficient plate attachment assembly that may be utilized, for example, as a food container, and which has the capability of stacking on top of another plate attachment assembly and/or a drinking cup. More specifically, embodiments of the invention provide a plate attachment assembly composed of a first plate shell having a bottom wall and a sidewall with a flange disposed around the perimeter that includes a locking tab. In addition, embodiments of the invention also provide a second plate shell having a bottom wall and a sidewall with a flange disposed around the perimeter that includes a locking tab receiving aperture. The first and second plate shells may combine with one another in a secure locking configuration.

[0063] Referring now to FIGS. 1-2 and 7-8A, one embodiment of the present invention is shown in a perspective view. FIG. 1, along with other figures depicted herein, shows several advantageous features of the present invention, but, as will be described below, the invention can be provided in several shapes, sizes, combinations of features and components, and varying numbers and functions of the components. The first example of a plate attachment assembly 100, as shown in FIG. 1, includes a first plate shell 102 and a second plate shell 104. FIG. 1 depicts the first plate shell 102 detached from the second plate shell 104, but as will be revealed below, the first plate shell 102 may selectively removably couple to the second plate shell 104 in a locking configuration. Referring now to FIG. 2, the first plate shell 102 includes a bottom wall 202 having an interior surface 204 and a bottom surface 206 opposing the interior surface 204. The first plate shell 102 further includes a sidewall 208 surrounding the bottom wall 202. The sidewall 208 includes an upper end 210 having a perimeter 212. The sidewall 208 further includes a flange 214 disposed around the perimeter 212. The flange 214 includes an upper surface 224. Referring now to FIG. 7, the second plate shell 104 includes a bottom wall 702 having an interior surface 704 and a bottom surface 706 opposing the interior surface 704. The second plate shell 104 further includes a sidewall 708 surrounding the bottom wall 702. The sidewall 708 includes an upper end 710 having a perimeter 712. The sidewall 708 further includes a flange 714 disposed around the perimeter 712. The flange 714 includes an upper surface 716 and a lower surface 718 opposing the upper surface 716. The bottom walls 202, 702 and the sidewalls 208, 708 of the first and second plate shells 102, 104 are shaped and sized to receive food items (not shown).

[0064] In one embodiment, the interior surfaces 204, 704 of the bottom walls 202, 702 may be substantially planar. In other embodiments, the interior surfaces 204, 704 of the bottom walls 202, 702 may contain one or more divisional wall(s) (not shown) which are designed to separate a user's main course from his or her side dish(es) (not shown).

[0065] Referring back to FIG. 2, the first plate shell 102 further includes one or more locking tab(s) 216a-b disposed on the flange 214. In the preferred embodiment, there are two locking tabs 216a, 216b disposed on the flange 214. In other embodiments, there are three locking tabs (not shown) disposed on the flange 214. In yet other embodiments, there may be more or less locking tabs 216a-b. One, both or all of the locking tabs 216a-b may include the same main features, however, as a representative sample of the main features of locking tabs 216a-b, the main features of locking tab 216a will be described herein. The locking tab 216a includes an upright locking portion 218, wherein the upright locking portion 218 extends upwardly from the upper surface 224 of the flange 214. The upright locking portion 218 includes an upper end 220 and an inner surface 302 (shown in FIG. 3). The locking tab 216a further includes a lateral locking portion 222 coupled to and extending away from the upper end 220 of the upright locking portion 218. Referring now to FIG. 4A, the lateral locking portion 222 includes an inner surface 402. The inner surface 302 of the upright locking portion 218 and the inner surface 402 of the lateral locking portion 222 define a secondary flange receiving channel 404.

[0066] In a further embodiment, the locking tab 216a includes a locking protrusion 406 coupled to and extending downwardly from the inner surface 402 of the lateral locking portion 222. The locking protrusion 406 includes a distal free end 408 terminating in the secondary flange receiving channel 404. In one embodiment, the distal free end 408 of the locking protrusion 406 is rounded. In other embodiments, the distal free end 408 of the locking protrusion 406 may be of any shape.

[0067] As a representative sample of the placement of each locking tab 216a-b on the flange 214, the placement of locking tab 216a will be described herein. Referring to FIGS. 2-3, the upright locking portion 218 of the locking tab 216a is disposed proximal to the upper end 210 of the flange 214. Moreover, the lateral locking portion 222 extends away from the upper end 220, such that the inner surface 302 of the upright locking portion 218 is disposed in a direction facing opposite of the interior surface 204 of the bottom wall 202. In other embodiments, locking tab 216a can be placed wherein the upright portion 218 is instead disposed on an end opposing the upper end 210 of the flange 214, such that the lateral locking portion 222 extends towards the interior surface 204 of the bottom wall 202 and the inner surface 302 of the upright locking portion 218 is also disposed in a direction facing toward the interior surface 204 of the bottom wall 202.

[0068] It should be understood that terms such as, front, rear, side, top, bottom, and the like are indicated from the reference point of a viewer viewing the first plate shell 102 from the perspective shown in FIG. 2.

[0069] Referring back to FIG. 7, the lower surface 718 and the upper surface 716 of the flange 714 of the second plate shell 104 define one or more locking tab receiving aperture(s) 720a-b disposed thereon. In the preferred embodiment, there are two locking tab receiving apertures 720a, 720b disposed on the flange 714. In other embodiments, there are three locking tab receiving apertures (not shown). In yet other embodiments, there may be more or less locking tab receiving apertures 720a-b. However, in every embodiment, the amount of locking tabs 216a-b and locking tab receiving apertures 720a-b correspond with respect to one another. Said another way, there are an equal amount of locking tabs 216a-b on the first plate shell 102 as there are locking tab receiving apertures 720a-b on the second plate shell 104.

[0070] In a further embodiment, best shown in FIGS. 8-8A, one, both or all of the locking tab receiving apertures 720a-b are shaped and sized to receive the lateral locking portion 222 of the locking tab 216a and a portion of the upright locking portion 218 of the first plate shell 102.

[0071] In a further embodiment, best seen in FIGS. 8A and 12, the lower surface 718 of the flange 714 of the second plate shell 104 further includes one or more notches 802a-b defined thereon and of a shape corresponding to the distal free end 408 (shown in FIG. 4A) of the locking protrusion 406 of the locking tab 216a of the first plate shell 102.

[0072] In a further embodiment, best shown in FIGS. 14-14A, the first plate shell 102 and second plate shell 104 are operably configured to selectively removably couple together. As a representative sample of the method in which the first and second plate shells 102, 104 couple together, the locking configuration of the locking tab 216a on notch 802a will be described herein. The distal free end 408 (not shown) of the locking protrusion 406 (not shown) of the locking tab 216a of the first plate shell 102 and the notch 802a (not shown) of the lower surface 718 of the flange 714 of the second plate shell 104 are operably configured to selectively removably couple together and dispose the first and second plate shells 102, 104 in a locking configuration.

[0073] In a further embodiment, when the first plate shell 102 is selectively removably coupled to the second plate shell 104, food (not shown) may be placed on either the first or second plate shell 102, 104 and the food will be contained within an internal space (not shown) defined by the interior surfaces 204, 704 of the bottom walls 202, 702 and the sidewalls 208, 708 of the first and second plate shells 102, 104.

[0074] Referring back to FIGS. 8-8A and 12, the bottom surface 718 of the flange 714 of the second plate shell 104 further includes one or more ramps 804a-b disposed proximal to the locking tab receiving apertures 720a-b. The ramps 804a-b ascend toward the lower surface 718 of the flange 714 of the second plate shell 104 and toward the notches 802a-b.

[0075] In a further embodiment, the flange 714 of the second plate shell 104 further comprises one or more locking tab receiving channels 806a-b disposed adjacent to the ramps 804a-b and to the notches 802a-b. As a representative sample of the placement of the locking tab receiving channels 806a-b, the placement of locking tab receiving channel 806a will be described herein. The locking tab receiving channel 806a is spatially coupled to the locking tab receiving aperture 720a. Moreover, the locking tab receiving channel 806a is shaped and sized to receive the upright locking portion 218 of the locking tab 216a (shown best in FIG. 14A) of the first plate shell 102.

[0076] It should be understood that terms such as, front, rear, side, top, bottom, and the like are indicated from the reference point of a viewer viewing the second plate shell 104 from the perspective shown in FIG. 7.

[0077] Referring back to FIG. 4-4A, the secondary flange receiving channel 404 of the locking tab 216a further comprises a receiving channel length 410 separating the inner surface 402 of the lateral locking portion 222 and a lower end 412 of the upright locking portion 218 of the locking tab 216a. The lower end 412 opposes the upper end 220 of the upright locking portion 218. Further, the receiving channel length 410 is greater than a first flange thickness 1002 (best shown in FIG. 10A) separating the lower surface 718 and the upper surface 716 of the flange 714 of the second plate shell 104.

[0078] Referring back to FIG. 2, in other embodiments wherein the first plate shell 102 of the plate attachment assembly 100 further comprises a second locking tab 216b disposed on the flange 214, the locking tab 216a and the second locking tab 216b are disposed on opposing sides of the first plate shell 102. The second locking tab 216b also features many of the same main components the locking tab 216a includes. The second locking tab 216b similarly includes an upright locking portion 226, wherein the upright locking portion 226 extends upwardly from the upper surface 224 of the flange 214. The upright locking portion 226 also includes an upper end 228 and an inner surface (not shown). The second locking tab 216b further includes a lateral locking portion 230 coupled to and extending away from the upper end 228 of the upright locking portion 226. The lateral locking portion 230 further includes an inner surface (not shown). The inner surface of the upright locking portion 226 and the inner surface of the lateral locking portion 230 define a second secondary flange receiving channel 232.

[0079] In a further embodiment, the second locking tab 216b similarly includes a locking protrusion (not shown) coupled to and extending downwardly from the inner surface of the lateral locking portion 230. The locking protrusion includes a distal free end (not shown) terminating in the second secondary flange receiving channel 232.

[0080] In a further embodiment, as shown in FIG. 7, the second plate shell 104 of the plate attachment assembly 100 further comprises a second locking tab receiving aperture 720b disposed on the flange 714. The locking tab receiving aperture 720a and the second locking tab receiving aperture 720b are disposed on opposing sides of the second plate shell 104. The second locking tab receiving aperture 720b also features many of the same main components that the locking tab receiving aperture 720a includes. The second locking tab receiving aperture 720b is similarly shaped and sized to receive the lateral locking portions 222, 230 of the locking tab 216a or the second locking tab 216b and a portion of the upright locking portions 218, 226 of either the locking tab 216a or the second locking tab 216b of the first plate shell 102.

[0081] In a further embodiment, referring back to FIG. 2, the second secondary flange receiving channel 232 of the second locking tab 216b of the first plate shell 102 also features many of the same main components that the secondary flange receiving channel 404 of the locking tab 216a includes. The second secondary flange receiving channel 232 similarly comprises a receiving channel length (not shown but equal to receiving channel length 410) separating the inner surface of the lateral locking portion 230 and a lower end 234 of the upright locking portion 228 of the locking tab 216b. The lower end 234 opposes the upper end 228 of the upright locking portion 226. Further, the receiving channel length is similarly greater than the first flange thickness 1002 (best shown in FIG. 10A) separating the lower surface 718 and the upper surface 716 of the flange 714 of the second plate shell 104.

[0082] Referring now to FIG. 3A, in some embodiments, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 further comprises a first cup support sidewall 304 protruding therefrom, of a circular shape, and defining a circular area shaped and sized to receive an upper end diameter (not shown) of a drinking cup 504 (shown in FIGS. 5-6). The first cup support sidewall 304 protrudes in a substantially perpendicular direction from the bottom surface 206 of the bottom wall 202. In some embodiments, the first cup support sidewall 304 may be continuous (i.e., without gaps), in other embodiments, the first cup support sidewall 304 may be discontinuous (i.e., with gaps). The embodiment of the first plate shell 102 shown in FIGS. 3A, 5-6 shows the first cup support sidewall 304 as discontinuous (with gaps). The first cup support sidewall 304 is designed to resist lateral movement (i.e., side-to-side) of the upper end of the drinking cup 504 by holding it in place. Further, the circular area of the first cup support sidewall 304 is within a range of approximately 2.5-3.5 inches to accommodate a majority of conventional cup diameters.

[0083] In a further embodiment, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 further comprises a second cup support sidewall 306 protruding therefrom, of a circular shape, and defining a circular area (not shown) shaped and sized to receive an upper end diameter (not shown) of a larger-sized drinking cup (not shown). The second cup support sidewall 306 protrudes in a substantially perpendicular direction from the bottom surface 206 of the bottom wall 202. In some embodiments, the second cup support sidewall 306 may be continuous (i.e., without gaps), in other embodiments, the second cup support sidewall 306 may be discontinuous (i.e., with gaps). The embodiment of the first plate shell 102 shown in FIGS. 3A, 5-6 shows the second cup support sidewall 306 as discontinuous (with gaps). Similarly, the second cup support sidewall 306 is designed to resist lateral movement (i.e., side-to-side) of the upper end of the larger-sized drinking cup by holding it in place. Further, the circular area of the second cup support sidewall 306 is within a range of approximately 3.5-4.25 inches to accommodate a majority of larger-sized conventional cup diameters. The first cup support sidewall 304 is concentrically disposed in relation to the second cup support sidewall 306, wherein the circular area of the first cup support sidewall 304 is less than the circular area of the second cup support sidewall 306.

[0084] Referring now to FIG. 8, in some embodiments, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 further comprises a first cup support sidewall 846 protruding therefrom, of a circular shape, and defining a circular area shaped and sized to receive an upper end diameter (not shown) of a drinking cup (not shown). The first cup support sidewall 846 protrudes in a substantially perpendicular direction from the bottom surface 706 of the bottom wall 702. In some embodiments, the first cup support sidewall 846 may be continuous (i.e., without gaps), in other embodiments, the first cup support sidewall 846 may be discontinuous (i.e., with gaps). The embodiment of the second plate shell 104 shown in FIGS. 8, 12-13 shows the first cup support sidewall 846 as discontinuous (with gaps). The first cup support sidewall 846 is designed to resist lateral movement (i.e., side-to-side) of the upper end of the drinking cup by holding it in place. Further, the circular area of the first cup support sidewall 846 is within a range of approximately 2.5-3.5 inches to accommodate a majority of conventional cup diameters.

[0085] In a further embodiment, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 further comprises a second cup support sidewall 848 protruding therefrom, of a circular shape, and defining a circular area (not shown) shaped and sized to receive an upper end diameter (not shown) of a larger-sized drinking cup (not shown). The second cup support sidewall 848 protrudes in a substantially perpendicular direction from the bottom surface 706 of the bottom wall 702. In some embodiments, the second cup support sidewall 848 may be continuous (i.e., without gaps), in other embodiments, the second cup support sidewall 848 may be discontinuous (i.e., with gaps). The embodiment of the second plate shell 104 shown in FIGS. 8, 12-13 shows the second cup support sidewall 848 as discontinuous (with gaps). Similarly, the second cup support sidewall 848 is designed to resist lateral movement (i.e., side-to-side) of the upper end of the larger-sized drinking cup by holding it in place. Further, the circular area of the second cup support sidewall 848 is within a range of approximately 3.5-4.25 inches to accommodate a majority of larger-sized conventional cup diameters. The first cup support sidewall 846 is concentrically disposed in relation to the second cup support sidewall 848, wherein the circular area of the first cup support sidewall 846 is less than the circular area of the second cup support sidewall 848.

[0086] In other embodiments, best shown in FIG. 3A, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 further includes a first plurality of plate support sidewalls 308a-b, protruding therefrom in a substantially perpendicular direction. The first plurality of plate support sidewalls 308aa-b are of a circular shape and define a middle channel 310 therein between. The bottom surface 206 of the bottom wall 202 of the first plate shell 102 further includes a second plurality of plate support sidewalls 312a-b, protruding therefrom in a substantially perpendicular direction. The second plurality of plate support sidewalls 312a-b opposes the first plurality of plate support sidewalls 308a-b in placement on the bottom surface 206 of the bottom wall 202. The second plurality of plate support sidewalls 312a-b are of a circular shape and define a middle channel 314 therein between. The bottom surface 206 of the bottom wall 202 of the first plate shell 102 further includes a first plate locking member 316 and a second plate locking member 318 interposed between the first and second plurality of plate support sidewalls 308a-b, 312a-b. The first and second plate locking members 316, 318 oppose one another in placement on the bottom surface 206 of the bottom wall 202. The first and second plate locking members 316, 318 have a uniform thickness less than the middle channels 310, 314 defined by the first and second plurality of plate support sidewalls 308a-b, 312a-b.

[0087] Similarly, as may be seen in FIG. 8, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 further includes a first plurality of plate support sidewalls 808a-b, protruding therefrom in a substantially perpendicular direction. The first plurality of plate support sidewalls 808a-b are of a circular shape and define a middle channel 810 therein between. The bottom surface 706 of the bottom wall 702 of the second plate shell 104 further includes a second plurality of plate support sidewalls 812a-b, protruding therefrom in a substantially perpendicular direction. The second plurality of plate support sidewalls 812a-b opposes the first plurality of plate support sidewalls 808a-b in placement on the bottom surface 706 of the bottom wall 702. The second plurality of plate support sidewalls 812a-b are of a circular shape and define a middle channel 814 therein between. The bottom surface 706 of the bottom wall 702 of the second plate shell 104 further includes a first plate locking member 816 and a second plate locking member 818 interposed between the first and second plurality of plate support sidewalls 808a-b, 812a-b. The first and second plate locking members 816, 818 oppose one another in placement on the bottom surface 706 of the bottom wall 702. The first and second plate locking members 816, 818 have a uniform thickness less than the middle channels 810, 814 defined by the first and second plurality of plate support sidewalls 808a-b, 812a-b.

[0088] In other embodiments of the plate attachment assembly 100, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 may not include the first plurality of plate support sidewalls 308a-b or the second plurality of plate support sidewalls 312a-b. In these embodiments, best shown in FIG. 6, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 includes a first plate support sidewall 602 and a second plate support sidewall 604 which are continuous. Said another way, the first and second plate support sidewalls 602, 604 of the first plate shell 102 do not include the middle channel 310 or the middle channel 314. Further, the bottom surface 206 of the bottom wall 202 of the first plate shell 102 will not include the first plate locking member 316 or the second plate locking member 318. Similarly, in these embodiments of the plate attachment assembly 100, as shown in FIG. 12, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 may not include the first plurality of plate support sidewalls 808a-b or the second plurality of plate support sidewalls 812a-b. In these embodiments, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 includes a first plate support sidewall 1200 and a second plate support sidewall 1202 which are continuous. Moreover, the first plate support sidewall 1200 does not include the middle channel 810 and the second support sidewall 1202 does not include the middle channel 814. Further, the bottom surface 706 of the bottom wall 702 of the second plate shell 104 will not include the first plate locking member 816 or the second plate locking member 818.

[0089] Referring back to FIG. 3A, in other embodiments, the first plurality of plate support sidewalls 308a-b has opposing ends 320, 322 with sidewall portions 324, 326 extending inwardly toward a center of the bottom surface 206 of the bottom wall 202 and substantially orthogonal to a portion of the first plurality of plate support sidewalls 308a-b in which the sidewall portions 324, 326 extend from. Similarly, the second plurality of plate support sidewalls 312a-b has opposing ends 328, 330 with sidewall portions 332, 334 extending inwardly toward a center of the bottom surface 206 of the bottom wall 202 and substantially orthogonal to a portion of the second plurality of plate support sidewalls 312a-b in which the sidewall portions 332, 334 extend from.

[0090] In a further embodiment, taking plate support sidewall 308a as an example, said plate support sidewall 308a further includes a channel end 342. Moreover, taking the first plate locking member 316 as an example, said first plate locking member 316 includes a left end 336 and a right end 338 opposing the left end 336. The opposing end 320 of the plate support sidewall 308a and the left end 336 of the first plate locking member 316 are separated by a distance 340. Further, the opposing end 320 and the channel end 342 of the plate support sidewall 308a are separated by a distance 344. The distance 340 and the distance 344 are equal. The distance between the opposing ends of each of the plate support sidewalls 308a-b, 312a-b and the left or right ends of the plate locking members 316, 318 may equate to the distance 340. Further, the distance between the opposing ends and the channel ends of each of the plate support sidewalls 308a-b, 312a-b may equate to the distance 344. It should be understood that terms such as, front, rear, side, top, bottom, left, right, and the like are indicated from the reference point of a viewer viewing the first plate shell 102 from the perspective shown in FIG. 3A.

[0091] Referring back to FIG. 8, in a further embodiment, the first plurality of plate support sidewalls 808a-b has opposing ends 820, 822 with sidewall portions 824, 826 extending inwardly toward a center of the bottom surface 706 of the bottom wall 702 and substantially orthogonal to a portion of the plurality of plate support sidewalls 808a-b in which the sidewall portions 824, 826 extend from. Similarly, the second plurality of plate support sidewalls 812a-b has opposing ends 828, 830 with sidewall portions 832, 834 extending inwardly toward a center of the bottom surface 706 of the bottom wall 702 and substantially orthogonal to a portion of the plurality of plate support sidewalls 812a-b in which the sidewall portions 832, 834 extend from.

[0092] In a further embodiment, taking plate support sidewall 808a as an example, said plate support sidewall 808a further includes a channel end 836. Moreover, taking the first plate locking member 816 as an example, said first plate locking member 816 includes a left end 838 and a right end 840 opposing the left end 838. The opposing end 820 of the plate support sidewall 808a and the right end 840 of the first plate locking member 816 are separated by a distance 842. Further, the opposing end 820 and the channel end 836 of the plate support sidewall 808a are separated by a distance 844. The distance 842 and the distance 844 are equal. The distance between the opposing ends of each of the plate support sidewalls 808a-b, 812a-b and the left or right ends of the plate locking members 816, 818 may equate to the distance 842. Further, the distance between the opposing ends and the channel ends of each of the plate support sidewalls 808a-b, 812a-b may equate to the distance 844. It should be understood that terms such as, front, rear, side, top, bottom, left, right, and the like are indicated from the reference point of a viewer viewing the second plate shell 104 from the perspective shown in FIG. 8.

[0093] In other embodiments, the first plurality of plate support sidewalls 308a-b of the first plate shell 102 may not include the sidewall portions 324, 326 and the second plurality of plate support sidewalls 312a-b of the first plate shell 102 may not include the sidewall portions 332, 334. Further, in these embodiments, the first plurality of plate support sidewalls 808a-b of the second plate shell 104 may not include the sidewall portions 824, 826 and the second plurality of plate support sidewalls 812a-b of the second plate shell 104 may not include the sidewall portions 832, 834.

[0094] In some embodiments, as depicted in FIG. 2, the flange 214 of the first plate shell 102 further includes a lower surface 236 opposing the upper surface 224. The lower surface 236 and the upper surface 224 of the flange 214 define one or more locking tab receiving aperture(s) 238a-b disposed thereon. The locking tab receiving apertures 238a-b feature many of the same main components included within the locking tab receiving apertures 720a-b depicted in FIGS. 7, 8-8A and described above.

[0095] In a further embodiment, referring back to FIG. 7, the second plate shell 104 may further include one or more locking tab(s) 722a-b disposed on the flange 714. The locking tab(s) 722a-b feature many of the same main components included within the locking tab(s) 216a-b depicted in FIGS. 2, 3, 4A and described above.

[0096] Referring back to FIGS. 1, 14-14A, in order to interlock the first plate shell 102 onto the second plate shell 104, a user would first align the first and second plate shells 102, 104 such that the interior surfaces 204, 704 (not shown) of the bottom walls 202, 702 are opposing each other and the upper surfaces 224, 716 of the flanges 214, 714 are directly opposing one another. Moreover, a user would align the flanges 214, 714 such that the locking tabs 216a-b of the first plate shell 102 are inserted into the locking tab receiving apertures 720a-b of second plate shell 104 and the locking tabs 722a-b (not shown) of the second plate shell 104 are inserted into the locking tab receiving apertures 238a-b of the first plate shell 102. Then, a user would twist the first and second plate shells 102, 104 in opposite longitudinal directions, allowing the locking tabs 722a-b of the second plate shell 104 to slide down the ramps (not shown) of the bottom surface 236 of the flange 214 of the of the first plate shell 102. Simultaneously, the locking tabs 216a-b of the first plate shell 102 will slide up the ramps 804a-b of the bottom surface 718 of the flange 714 of the second plate shell 104. Further, in the preferred embodiment, a user would twist the first plate shell 102 in a counterclockwise rotation while simultaneously twisting the second plate shell 104 in a clockwise rotation. To securely lock the first plate shell 102 onto the second plate shell 104 in the locking configuration, a user would continue to twist the first and second plate shells 102, 104 in opposing directions until, for example, the locking protrusion 406 of the locking tab 216a of the first plate shell 102 falls into place on the notch 802a of the second plate shell 104. Further, to open the plate attachment assembly 100 and detach the first plate shell 102 from the second plate shell 104, a user would simply have to twist the first and second plate shells 102, 104 in opposing directions and pull the first and second plate shells 102, 104 apart. In the preferred embodiment, to open the assembly 100, a user would twist the first plate shell 102 in a clockwise rotation while simultaneously twisting the second plate shell 104 in a counterclockwise rotation. To overcome the locking configuration in the preferred embodiment, a user would have to apply approximately 1-3 lbf of force to separate the first plate shell 102 from the second plate shell 104, applying such force as to overcome the locking protrusion and notch closure.

[0097] Best depicted in FIG. 15, the second plate shell 104 of the plate attachment assembly 100 is operably configured to interlock onto a first plate shell 1500 of another plate attachment assembly. The first plate shell 1500 includes all of the same main components that the first plate shell 102 includes as described above. Thus, as a representative sample of the method in which the second plate shell 104 interlocks onto the first plate shell 1500, the first plurality of plate support sidewalls 808a-b of the second plate shell 104 as well as the second plate locking member 818 will be described herein. Moreover, the first plate shell 1500 includes a first plurality of plate support sidewalls 1502a-b featuring the same main components as the first plurality of plate support sidewalls 308a-b of the first plate shell 102 described above and seen in FIG. 3A. The first plate shell 1500 also includes a second plurality of plate support sidewalls 1504a-b featuring the same main components as the second plurality of plate support sidewalls 312a-b of the first plate shell 102 described above and seen in FIG. 3A. Additionally, the first plate shell 1500 also includes a first plate locking member 1506 and a second plate locking member (not shown) featuring the same main components as the first and second plate locking members 316, 318 of the first plate shell 102 described above and seen in FIG. 3A. The bottom surface 706 of the bottom wall 702 of the second plate shell 104 couples to a bottom surface 1510 of a bottom wall 1508 of the first plate shell 1500. For exemplary purposes, when a user interlocks the second plate shell 104 onto the first plate shell 1500, the first plate locking member 1506 of the first plate shell 1500 is disposed within the middle channel 810 between the first plurality of plate support sidewalls 808a-b of the second plate shell 104. Further, the second plate locking member 818 of the second plate shell 104 is disposed within a middle channel 1512 between the first plurality of plate support sidewalls 1502a-b of the first plate shell 1500. This same method of placement is duplicated for the second plate locking member (not shown) of the first plate shell 1500 and the first plate locking member 816 of the second plate shell 104.

[0098] With reference to FIG. 16, the plate attachment assembly 100 is shown with multiple plate shells 102, 104, 1500 coupled together. In preferred embodiments, the plate shells 102, 104, 1500 interlock together as described above, thereby preventing lateral and/or rotational movement thereon. As those of skill in the art will appreciate, one beneficial aspect of the present invention is for two or more plate shell assemblies to stack on one another. As such, a user can carry multiple plates on top of one another in a safe and effective manner.

[0099] In a further embodiment, the first plate shell 1500 further includes sidewall portions 1514, 1516 which are similar to the sidewall portions 324, 334 described above and seen in FIG. 3A. As a representative sample of the placement of the sidewall portions of each plate shell against one another when two plate assemblies are interlocked, the placement of sidewall portions 824, 826 of second plate shell 104 with respect to the sidewall portions 1514, 1516 of first plate shell 1500 will be described herein. The sidewall portions help stabilize the second plate shell 104 and the first plate shell 1500 when joined together and resist lateral movement of both the second and first plate shells 104, 1500. Said another way, the sidewall portions 824, 826, 1514, 1516 prevent rotation or twisting of the second and first plate shells 104, 1500 when joined together. The sidewall portion 824 of the second plate shell 104 lays against the sidewall portion 1516 of the first plate shell 1500 while the sidewall portion 826 of the second plate shell 104 lays against the sidewall portion 1514 of the first plate shell 1500.

[0100] Therefore, the second and first plate shells 104, 1500 lay against one another correctly and evenly providing secure support to the plate attachment assemblies.

[0101] A plate attachment assembly has been disclosed that includes a first plate shell and a second plate shell that selectively removably couple to one another. The first and second plate shells include one or more locking tabs and one or more locking tab receiving apertures. The locking tabs and locking tab receiving apertures couple to one another to dispose the first and second plate shells in a locking configuration. The first and second plate shells further include a cup support sidewalls and a plurality of plate support sidewalls which allow the plate attachment assembly to be securely coupled to a drinking cup and/or another plate attachment assembly, respectively.