Abstract:
Cup lid with integrated container(s) that couples with the top of a cup. The cup and cup lid form at least two containment volumes, Embodiments enable easy containment, inclusion of fresh food, transportation and access of solid or liquid in the container and cup without disengagement of the cup lid from the cup. Contents of the lid container may be accessed, partially consumed, replaced in the container and resealed at any time as desired by the user. Additionally, an independent drop-in container within the lid cavity may be resealed and removed from the lid cavity and taken to other locations such as home, work, or car. Simplifies eating and drinking from one unified container and cup in a theater or stadium having seats for example that provide one cup-holder per seat. Provides one free hand to hold a child&#39;s hand for safety while in stadiums and amusement parks.

Description:
This application is a continuation in part of U.S. Utility patent application Ser. No. 13/360,707, filed 28 Jan. 2012 which is a continuation in part of U.S. Utility patent application Ser. No. 13/226,346, filed 6 Sep. 2011, the specifications of which are hereby incorporated herein by reference. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     One or more embodiments of the invention are related to the field of containers. More particularly, but not by way of limitation, one or more embodiments of the invention enable a cup lid with integrated container that enables for example simultaneous or intermittent access of the contents of the container and attached cup without disengagement of the cup lid from the cup. Additionally, an independent drop-in container may reside within the cup lid cavity such that after partially consuming the contents of the independent drop-in container it may be resealed with an additional lid and removed from the lid cavity and transported to another location such as a car or home. 
     2. Description of the Related Art 
     Standard cup lids are simple covers that do not include an integrated container. Rather, known lids cover the contents of a cup which forms a closed container in combination with the cup itself. Known containers that couple with cups include food containers that fit onto the top of yogurt cups for example. Known containers have to be removed from the yogurt cup and then flipped over and opened before the contents of the container and cup may be accessed. It is generally not possible to access the contents of the cup while also accessing the contents of the container without first disengaging the container from the cup. Additionally, food containers that attach to yogurt cups in an upside-down position have a limited food-volume capacity. In such cases, as the yogurt example shows, the food-container walls narrow as they proceed upward toward the bottom of the upside down container. Other known devices having a container or shelf combined with a lid have limitations which makes these devices impractical to use. One category of devices includes a container combined with a cup, but utilizes a hole in the middle of the lid. This makes it impossible to store relatively circular items, i.e., non-ring or non-annular items having no central hole, in the container, such as hamburgers, cookies or muffins for example. Another category of device includes a container combined with a lid, but does not allow for simultaneous access of the contents of the cup and the container at the same time, and does not allow for the container to be resealed or a drop-in container to be removed from the container. Other devices that include drop-in functionality require removal of the container before accessing the contents of the cup. Yet these devices do not contemplate a drop-in container that is configured to fit into the arm rest of a movie theater seat. Other devices have relatively small peel containers for pills such as mints and are not suitable for larger food items. Another category of devices utilizes dividers in the cup with access on each side of the cup. None of the known devices enable a container to be disengaged from the lid of the cup while retaining the lower lid on the cup. No known devices have a non-permanent or male/female bottom oriented coupling system for coupling a container with the lid. Furthermore, there are no known rotational covers that enable or disable access to the liquid and/or solid in the cup as desired by the user. 
     Known containers that couple with bottles include gift containers that fit onto the top of bottles for example. It is generally not possible to access the contents of the bottles while also accessing the contents of the gift containers without disengaging the gift container from the bottle and then disengaging the lid of the bottle. 
     Thus simultaneous or intermittent access of the contents of known cups or bottles and of the contents of an attached container is not possible. This makes for difficult drinking/eating coffee, soda, snacks, popcorn, etc., in malls, fast food restaurants, theaters, amusement parks, sports stadiums or in any other venue. For example, this makes it difficult to eat and drink food in a theater or stadium with one cup-holder per seat. 
     For at least the limitations described above there is a need for a cup lid with integrated container. 
     BRIEF SUMMARY OF THE INVENTION 
     One or more embodiments described in the specification are related to a cup lid with integrated container. Embodiments of the cup lid generally provide a cavity, compartment or closed space, wherein the cup lid is configured to couple with the top of a cup. One or more embodiments may include volumes that extend to, into, out of, or both into and out of the plane defined by the circular top of the cup. In this manner, the cup and lid form at least two containment volumes, one volume formed by the bottommost portion of the cup lid and the inner walls of the cup, and another volume within the upper cup lid itself. In relation to the volume within the lid, the contents within this volume may be accessed, partially consumed, replaced (such as a cookie), and resealed within the volume through various secondary lid configurations and this may be done at any time as desired by the user. Embodiments of the invention enable easy containment, inclusion of fresh foods, transportation and simultaneous or intermittent access of solid or liquid in the container with solid or liquid held in the cup, without requiring disengagement of the cup lid from the cup. Additionally, a separate and independent drop-in/removable pre-sealed container may reside within the cup lid cavity such that after removing the pre-sealed cover and partially eating from a movie theater cup for example the user can then reseal the independent container and remove it from the lid cavity and take it to another location such as a car or home. 
     Embodiments of the invention may be made to fit any cup size, for example a paper coffee cup, and may be quickly attached and removed from the cup. Embodiments may be constructed from vacuum, thermal or injection molding techniques or in any other manner as desired. Any type of material may be utilized in the construction of one or more embodiments of the invention, for example plastic or polymer. One such plastic may be clear or opaque or any level of translucency. Materials may be chosen for strength and function as required. Common thermosetting polymers include epoxy and phenolic materials. Thermoplastic materials that may be utilized include polypropylene, nylon, polyethylene and polystyrene for example. Alternatively, additional configurations may utilize paper, hard-molded plastic, ceramic, metal (for example, stainless steel), and silicon. Coffee cup lids are generally white or black while most soda or drink-cup lids are clear. Any colors or color combinations may be used. One or more embodiments may utilize components of different translucent values, for example a bottom compartment of the container may be white, while the seal-on/peel-off cover or press-on friction cover portion of the container may be clear so that the contents of the container may be viewed without opening the container. The cavity may contain a thermal liner, for example Styrofoam for cold items such as ice cream or frozen yogurt or alternatively for hot items such as sliders, hamburgers, chili or soup. The cavity may contain a paper liner with an optional ruffled edge to act as a barrier between a cookie for example and the plastic which forms the inner wall of the lid cavity. The cavity may include a single or double wall for extra insulative effect or for any other reason. Thermal sensitive plastics, for example thermochromics may also be utilized to show how hot or cold the item in the container is. These types of plastics change color for example based on their temperature. Graphic symbols, for example bar codes, arrows and/or letters or any other informative element that for example read “Caution Contents Hot”, may be displayed for example when the thermochromic is hot, for example in Red, wherein the letters would not be shown otherwise, or would be shown in Blue for example if the contents of the container were not hot. These colors are exemplary and any color including transparent may be chosen to represent hot and cold in any embodiment of the invention. For embodiments that do not utilize thermochromic materials, any graphical symbols or lettering may be utilized to warn or inform a potential user. Graphical symbols and/or lettering may be placed on the cover or sides, or inside of the container or in any other area that may be viewed or touched, including but not limited to the cover for example. Graphical symbols and/or lettering may include logos, advertisements, bar codes, puzzles, promotions, trivia or any other type of information that is viewable and may include tactile information including Braille. 
     The vertical dimension of the cavity may vary from a low, for example about a half an inch when the container is configured to hold a cookie, to a medium, for example about one and a half inches when the container is configured to hold a doughnut, or high, for example, up to or more than four inches when the container is configured to hold frozen yogurt, ice cream, a hamburger, French fries, or a sandwich. As one skilled in the art will appreciate, any desired dimension of the container may be utilized as desired for the particular application. The horizontal dimension of the container may be of a width less than, equal to, or greater than the diameter of the cup measured across the plane formed by the top of the cup opening. When the horizontal dimension of the container is less than the diameter of the cup opening, then the vertical offset of the dimension may extend downward into the main volume of the cup. Other embodiments enable containers having a horizontal dimension less than, equal to, or greater than the diameter of the cup opening to reside on top of the plane defined by the cup opening. Other embodiments of the container may include portions having a smaller horizontal dimension to extend into the main volume of the cup and a portion of the container that is smaller, equal to, or larger that also extends above the plane defined by the cup opening. Embodiments may be constructed from one or more parts. In the case of an embodiment having a container that extends above, and in some instances, below, the horizontal plane of the cup top, two elements may be fused or permanently bonded together for example, or molded or formed as a single unit may be two separate units that clip or lock together, e.g., through mating parts, or in any other manner. The shape of the container may be of any type, circular, oval, triangular, square or a polygon of any number of sides, or any other shape. 
     One or more embodiments of the invention may optionally include indented cut-outs to facilitate lifting of the item or items from within the cavity. For example, an embodiment with at least one indented cut-out allows for a finger to be inserted into the cavity in order to provide a lifting force to the item in the cavity. More than one indented cut-out for example may be employed so that opposing locations in the cavity may be employed to lift the item from the cavity as desired. Indented cut-outs can also be integrated such that uniform or level stacking may be achieved for ease of storage. Embodiments having three indented cut-outs, for example, stack evenly regardless of initial positioning; however, this is merely an exemplary embodiment, as other embodiments may be formed to readily stack as desired. 
     One or more embodiments of the invention may employ a hole such as a sip/gulp hole or straw hole for example, so that liquid in the cup may be accessed without removing the container. Any shape of hole or any shape straw, i.e., oblong from a cross-sectional view, for any purpose may be utilized as desired. Embodiments employing a hole may make use of a hole in the horizontal top surface of the container, or at the base of the container in the horizontal surface adjacent to the outer perimeter of the cup lid, when the container bottom is sufficiently smaller than the diameter of the cup rim, or on a vertical wall of the container for example, so that oversize containers may be utilized that, for example, have a larger diameter than the diameter of cup rim. For example, one embodiment of an oversize container allows for a hamburger or French fries to be placed on top of a soda or beer cup. In this latter configuration, a tri-bend straw is provided to effectively follow the contour of a larger container, located directly above, before heading diagonally upward toward the user. 
     Although the top container may be heat fused or permanently bonded to the cup lid, or made from a single molded or thermal-formed unit, for example, in the case of the large container configuration where the straw exits the vertical side wall, the large container may clip or couple to the cup lid below via a bottom oriented male/female coupling system or a vertical wall male/female ridge coupling system. Such clip, ridge or coupling systems as mentioned here provide for removal and reattachment of the top container to the cup lid, as desired by the user. 
     Embodiments of the invention may utilize a lid to cover the container, wherein in effect, a cup that is coupled with an embodiment of the invention effectively has two lids, one for the container and one formed by the container with the cup. To avoid confusion, “cover” as utilized herein refers to the lid for the container. Embodiments of covers include seal-on/peel-off, press-on, i.e., external and/or internal wall friction, press-on friction dome, rotational, hinge, clamshell, or swivel types of covers. Seal-on/peel-off covers may be configured using a thermal bonding process of similar or compatible materials (foil is an example of one option, and if a plastic or plastic composite, i.e., more than one layer, is utilized, any opacity or transparent or translucent characteristic may be utilized as desired), or may utilize an adhesive that allows the cover to be removed permanently or temporarily (cover may be resealed to the cup lid with cavity or the independent drop-in/removable container as desired), depending on the adhesive, to access the cavity. Seal-on/peel-off covers may be optionally scored such that only a specific portion of the entire lid is removed when pulling or lifting the removal tab. Press-on friction covers are generally plastic covers that may be removed and placed back on the cavity, for example, when placing fresh foods such as cookies within the cavity, or if the contents of the container have not all been removed. Seal-on/peel-off and press-on friction covers may be utilized in combination, so that after the press-on friction cover and seal-on/peel-off covers are removed, exposing the contents of the container, then the press-on friction cover may be placed over the container again to enclose the contents of the container for example. Press-on friction dome covers for example may also include a hole on top that enables a spoon, fork or other utensil such as chopsticks or any other utensil to access food within the container, such as frozen yogurt or fruit. Press-on friction covers may also include an adjustable open/close sip-hole or straw hole. Press-on external and/or internal wall friction covers may engage or couple in any manner that utilizes friction for the coupling. Press-on friction type covers may be implemented with a flat portion that is hinged at any peripheral location of the container that allows the lid to flex open in a clamshell fashion, exposing the contents of the container, while retaining the cover such that it remains attached to the exterior wall of the container. Lids or covers that act to contain the contents of the lid container/cavity are optional, such that the contents may reside within the lid container/cavity without a cover as to enable immediate access to the contents. 
     Items suitable for placement within the container include solids or liquids. For example, items may include any combination of one or more solid and/or liquid alone or in combination. Example items include one or more cookies, doughnuts, chocolates, chips, crackers, nuts, popcorn, candies, ice cream, frozen ice, ice coffee, frozen yogurt, cream, water, soda or coffee, fruit pieces, burgers, French fries, sandwiches, or any other solid or liquid. Items that may be sealed in and stored for use or purchase may be refrigerated after sealing if necessary, or items that are selectively prepared or fresh can be placed into the container and may utilize the press-on friction cover embodiment if desired based on the particular application. 
     Embodiments of the invention allow for one-handed transportation and simultaneous or intermittent access of the contents of the cup and container without disengaging the cup lid from the cup. Although, as specified here within, a clip-on male/female coupling system of engagement of the container to the lid below may be utilized, which allows the user to remove or reattach the top container as desired. Additionally, the contents of the lid container may be accessed, and partially consumed, then replaced within the container (a cookie for example) and resealed through various secondary lid configurations at any time as desired by the user. A movie theater configuration enables an independent drop-in container to reside within the cup lid cavity such that after partially consuming the contents of the independent drop-in container, it may be resealed with an additional lid and removed from the cup lid cavity and transported to another location such as a car or home. Independent drop-in pre-sealed cup style containers are extremely efficient and compatible with various configurations described herein due to the fact that after automated machinery (such as Oyster machinery) fills and seals these containers, they can then be easily transported to any location and then simply dropped into the lid cavity as specified per configuration as set forth herein. Various embodiments allow for ease of carrying and drinking/eating coffee, soda, cookies, snacks, etc., in malls, fast food restaurants, theaters, amusement parks, sport stadiums or in any other venue. For example, this allows a parent in an amusement park to carry food and beverages at the same time with one hand, while providing one hand free to hold the hand of a child for safety. In addition, embodiments of the invention simplify eating and drinking by combining these processes into one container and cup, which is significantly more convenient in theaters or stadiums having seats, for example, which provide a single cup holder per seat. 
     Rotational embodiments of the invention may include vertically oriented grip ridges that project outward, or inward-depending on number and spacing of ridges, from the exterior vertical wall of the cover that provide any number of exterior leverage or grip bumps for turning the top cover. In one or more embodiments, a click-stop post may project downward from the top horizontal surface of the top cover. Embodiments may optionally employ a vacuum release hole in the top cover and lower lid/container if desired. One or more embodiments of the invention utilize rotational arrows that may be raised, recessed, or printed, and in addition, informative words such as “drink” and “snack” or any other combination of words that instruct the user in relation to the various options that the embodiment as a whole may provide, for example particular rotational values of the top cover. Although not shown for brevity, there may be a small narrow raised ridge in the top cover that travels all the way around, or a portion of the way, e.g., half way around the sip/gulp hole or nut/snack size hole that acts as a tactile indicator or locator that instructs or guides the upper lip to the location of the hole in the top cover. 
     In one or more embodiments, the lower lid/container may utilize a crescent shaped, downward oriented, click-stop trough. The click-stop trough enables a limited rotational range with secure rotational values to be set for the top cover at one or more, or any number of discrete angular rotations for example. In one embodiment click-stops are used for open and fully closed rotational values for example. Embodiments that utilize click-stop troughs may employ opposing click-stop bumps vertically oriented in the lower lid/container, for example in the vertical interior wall of the click-stop trough. This enables the click-stop post to engage potential wells at desired rotational settings to secure the top cover at those rotational settings for example. 
     One or more embodiment may employ opposing sets of click stop bumps that provide for click-stop settings, i.e., which provide rotational impediments to limit rotation values to require enough force to overcome the bumps to change the rotational relative value between the top cover and the lid container. Other embodiments may utilize any number of click-stop settings, in which case the container cavity may be sub-divided with vertical walls thus forming various individual cavities that correspond to the click-stops for example. Two sets of click stop bumps may be utilized proximally to both ends of the click-stop trough for example where there is no closed setting and one of two holes in the top rotational cover is left open to access either a solid or liquid in the fully clockwise or fully counterclockwise rotational position. 
     Embodiments may also include a vacuum release hole, which allows fluids to flow easily from the drink cup, and additionally enables easy coupling and decoupling of the lower lid/container to the cup and/or top cover to the lower lid/container for example. Embodiments may also include a lower cup lid with a raised horizontal surface area at the sip/gulp hole location which allows the raised surface to become flush with the bottom horizontal surface of the top cover such that a leak preventative seal is created. 
     Embodiments may also utilize a seal-on/peel-off layer that is applied directly to the top horizontal surface of the lower lid/container such that the lower lid becomes a container and there is no need for a secondary independent drop-in container, which furthermore eliminates one component from the embodiment. This reduces the cost of materials. One or more embodiments may also utilize a half-circle laser or die scored line in the seal-on/peel-off layer located adjacent to the pull-tab. When the pull-tab is lifted a specific amount of material is removed from the seal-on/peel-off layer to the inside of the score line such that a nut or snack size opening in created. 
     In addition to using a directly applied seal-on/peel-off layer, there is the optional choice of utilizing an internal wall press-on friction type lid which comes with a large nut, snack, or liquid size opening that is molded or pre-cut out of the outer diameter edge that forms the circumference of the lid. The friction lid may press fit into a specific desired position by the use of male and female alignment elements in the vertical sidewall that may occur, for example as a half round outward bump that may be positioned at any outer diameter location and additionally faces inward toward the center of the press-on friction lid, lower lid/container and/or drop-in container. There may be a half circle indent in the outer vertical sidewall of the lid/container that is located at the same outer diameter as the bump in the interior vertical sidewall of the lid/container and/or drop-in container such that the indent fits or “spoons” within the interior bump where only a small top horizontal gap wall occurs between the two elements for example. The half circle indent in the outer vertical sidewall of the lid/container is deep enough to intersect and go under the top horizontal lip of the press-on lid such that a finger tip may be placed within the indent and lifted to remove the press-on lid. The top horizontal wall of the lid/container may be recessed to receive the outer lip of the press-on lid such that the press-on lid nestles into the top horizontal wall and is flush after being press fit into the lid/container. The press-on friction lid may be made from thin wall disposable plastic, or if the embodiment is made to be reusable, the press-on friction lid may for example be made from hard injection molded plastic. 
     One or more embodiments of the invention may include a cup lid/container with multiple compartments that are sub-divided by vertical walls. For example, in one embodiment, there may be more than one downward projecting compartments in the lower cup lid/container and one gulp/sip size or snack size hole cut through the top horizontal wall of the top rotational cover. The downward oriented vertical wall compartments may be configured in various sizes or shapes and may contain solids or liquids. For example the various compartments may contain, salt, tequila, lime and nuts, while beer may be located in the large cup below. Any solid(s) and/or liquid(s) may be held within the compartments. The salt component of the embodiment may be configured as a small removable circular mushroom cap style saltshaker for example. The small independent drop-in saltshaker may be centrally located via a corresponding downward female indent in the top horizontal wall of the lid/container and top cover. The saltshaker may couple in or press-fit into the female indent. Although the various compartments may project above or below the horizontal plane that is formed by the annular opening of the cup, the example shown here is where the various compartments project substantially downward into the horizontal plane formed by the annular opening. Additionally any of the four defined compartments mentioned in the above embodiment may utilize an independent drop-in container that may be held in place under the top cover. 
     Although more than one hole may be implemented in the top horizontal wall of the top rotational cover to access the first solid(s) and or liquid(s), shown here for example is one large hole that is located proximal to the outer vertical wall of the top rotational cover. The top rotational cover with a singular large hole for example may be rotated into any of the corresponding positions in order to access the contents of a desired compartment while the other compartments and the gulp/sip hole may remain covered or contained. If the singular large hole in the top cover is aligned with the gulp/sip hole in the lower lid/container, then the three remaining compartments for example in the lower lid/container may remain covered or contained, depending on the rotational implementation of the hole and compartments as desired. The solid(s) and/or liquid(s) may be consumed in a sequential order, which may be advantageous to the user. For example the salt shaker may be removed and utilized first while the tequila shot may be consumed second. Consuming the tequila shot second (rather than later) may prevent tequila from leaking between the top cover layer and lower lid/container layer while the cup is lifted and tilted toward the mouth as additional solid(s) and/or liquid(s) items are consumed. After being utilized the saltshaker may be stored by being press fit into a female downward indent in the bottom horizontal wall of the compartment that just moments before held a tequila shot. Additionally after being utilized the one-quarter-size slice of lime may be discarded or concealed within the same compartment in which it originated. The top cover may be opaque or transparent and can be made in any color. If the top cover is transparent a colored portion, e.g., a Red circle may be printed around the outer edge of the large hole located in the top horizontal wall so that the hole is easy to see or identify as it aligns over the selected compartment. Alternatively, or in combination, glow in the dark FDA approved plastic or glow in the dark printable ink for example may be utilized to show the locations of holes or rotational settings for example to aid in partying at night or in dark conditions. 
     The top rotational cover embodiment with the single large hole for example may optionally employ small round rotation indexers or upward oriented female indents or holes in the top horizontal wall proximal to an outer edge that corresponds with small round upward male protrusions in the top horizontal wall of the lower lid/container. Conversely, the top cover may employ downward male protrusions as rotation indexers rather than employing upward female indents or holes. If downward male protrusions are used in the top rotational cover then the lower lid/container may have corresponding female indents. Due to leakage, holes are generally not utilized in one or more embodiments as female receptacles in the lower lid/container. One or more downward or upward male protrusions, and corresponding female indents, may be employed as rotation indexers in either the top cover or lower lid/container. One or more embodiments may employ two small round upward male protrusions in the top horizontal wall of the lower lid/container, while there are four corresponding female indents in the top horizontal wall of the top cover. A vacuum release hole may be placed proximal to the gulp/sip hole in the top horizontal wall of the lid/container. 
     The outer vertical sidewalls of the lid/container may be raised between the clip-on ridge that fastens the lid/container to the cup and the top circular corner edge of the lid/container. Additionally, the vertical sidewall may be raised in the same location on the top cover which provides for a lower lip bumper/cushion as well as a vertical wall area in which the vertically oriented outward protruding turn/grip ridges for example may be located. Optionally, grip ridges are not located in the vertical wall for approximately one inch and a half directly below the location where the large hole is located in the top horizontal wall at the outer edge of the top cover in the embodiment shown. 
     One or more embodiments may utilize a small outward step in the vertical sidewall of the large cup that causes the upper portion of the cup to widen or become larger. Additionally this small continuous step creates a horizontal ring or fill line in the vertical sidewall. The fill line indicates how much fluid to place within the cup such that the fluid does not interfere with the downward compartments of the lid/container. 
     The clip-on ridge in the outer vertical sidewall of the top rotational cover also acts as a circular rotational trough that allows that top cover to rotate into specific desired positions. The vertical wall clip-on ridge that couples the lid/container to the cup rim also doubles as a rotational ridge for the top rotational cover. 
     In one or more embodiments, an optional slightly downward oriented football shaped indentation in the top cover acts as a plug over the gulp/sip hole in the lid/container when the top cover is rotated to access nuts for example or other solids, or liquids. The football shaped plug prevents liquids from leaking between the top and lower layer as nuts or other items are poured into the mouth. 
     An optional circular downward oriented foot peg may be configured in the top horizontal wall of the lower lid/container. The foot peg is located diagonally across from the largest compartment that may be used to store nuts for example. The foot peg allows the lower lid/container to remain level when placed on a level surface, which reduces space consumption when lid/containers are stacked in rows inside of a shipping box. 
     The largest compartment that may be used for nuts for example may have a large rounded corner or ramp wall integrated into the bottom front corner, e.g., closest to the vertical wall of the cup, which allows round food items such as nuts to roll easily into the mouth as the cup is lifted and tilted toward the mouth during the process of consuming the nuts or other items. 
     The rotational embodiment as described above may be made from flexible thin wall plastic, or ridged hard plastic, or any combination of these materials. The thin wall embodiment may be disposable while the hard plastic embodiment may be reusable. If hard plastic is used the lower lid/container may attach to the top edge of the large cup and the top cover may attach to the lower lid/container using any method that is obvious to those who are familiar with the art, such as utilizing threads, latches, seals, e.g., silicon, etc., snaps ridges, clip ridges, or any male/female components. The top cover may be thin flexible plastic, which may be reusable while the lower lid/container and large cup may be rigid hard reusable plastic. The overall embodiment may be constructed from thin, flexible, thermoformed disposable plastic which is a cost effective material that reduces the price of the final product. 
     Other embodiments may utilize an independent drop-in container. For example in one embodiment, there are two small half circle non-rotational alignment elements that project outward from the top lip of the independent drop-in container. These two small half circle non-rotational alignment elements provide a visual aid for orienting the independent container unit as it drops into the lower cup lid. Additional non-rotational alignment elements may be optionally configured into the bottom horizontal wall surface of the independent drop-in container and bottom horizontal wall surface of the lower cup lid. 
     In one or more embodiments, there may be a matching or mating non-rotational alignment element in the bottom horizontal wall of both the independent drop-in container and lower cup lid. The lower lid alignment element is configured as an upward protruding pill shape, e.g., narrow rectangle with rounded ends, or male indent that is centrally located in the bottom horizontal wall where the pill shape does not intersect with the vertical sidewall of the lower lid and additionally is oriented in a perpendicular fashion to the long dimension of the gulp/sip hole. There is a corresponding female pill shaped indent in the bottom horizontal wall of the independent drop-in the container in one or more embodiments. The alignment indents keep the drop-in container from rotating which keeps the nut size opening for example located directly opposite the gulp/sip hole that is located in the top horizontal wall near the outer edge of the lower lid/container. 
     In one or more embodiments, the bottom outer diameter corners of the independent drop-in container and/or lower lid/container may have large soft rounded corners so when lifting and tilting the drink cup snacks and round food items such as nuts roll smoothly off the large soft “ramped” corners and easily into the mouth. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The above and other aspects, features and advantages of the invention will be more apparent from the following more particular description thereof, presented in conjunction with the following drawings wherein: 
         FIG. 1  illustrates an exploded view of an embodiment of the cup lid with integrated container above a cup, along with a food item and a cover. 
         FIG. 2A  illustrates a bottom view of an embodiment of the invention,  FIG. 2B  shows a side view of an embodiment of the invention having a vertical dimension that extends to the plane of the cup opening,  FIG. 2C  shows a side view of an embodiment of the invention having a vertical dimension that extends down into the plane of the cup opening. 
         FIG. 3  illustrates a perspective view of an embodiment of the invention coupled with a cup, a seal-on/peel-off cover and configured to allow access to the contents of the cup via a straw. 
         FIG. 4  illustrates a cross sectional view of  FIG. 3 . 
         FIG. 5  illustrates a top perspective view of the embodiment shown in  FIG. 3 . 
         FIG. 6  illustrates a top view of the embodiment of the invention shown in  FIG. 3 . 
         FIG. 7A  illustrates a side cross sectional view of the embodiment of the invention shown in  FIG. 3 . 
         FIG. 7B  illustrates a side cross sectional view of the embodiment of the invention shown having two or more coupling elements configured to couple with cups of different sizes. 
         FIG. 7C  illustrates different embodiments of coupling elements that may be utilized to attach the top container to the cup rim. 
         FIG. 8  illustrates a perspective view of an embodiment of the invention coupled with a cup, a press-on friction cover and configured to allow access to the contents of the cup via a straw. 
         FIG. 9  illustrates a cross sectional view of  FIG. 8 . 
         FIG. 10  illustrates a top perspective view of the embodiment of the invention shown in  FIG. 8  along with an embodiment of a press-on friction cover. 
         FIG. 11  illustrates a top view of the embodiment of the invention shown in  FIG. 8  along with the open/close positioning holes for sealing off or providing access to the sip hole or straw hole. 
         FIG. 12A  illustrates a perspective view of an embodiment of the invention coupled with a cup, a container with an optional upper press-on friction dome style cover and configured to allow access to the contents of the cup through a hole in a vertical sidewall in the bottom cup lid, via a straw.  FIG. 12B  illustrates a rotationally aligned embodiment of the container of  FIG. 12A  employing a clamshell style cover, to form a clamshell hinge container, with tabs for easy opening and wherein the clamshell style cover is configured to open away from the straw and wherein the contents of the cup are accessed via a hole in a vertical sidewall of the bottom cup lid via the straw. In one or more embodiments, tabs include strengthening ribs that project relatively orthogonal to the plane of the tabs to provide for a stronger tab and/or enable use of thinner plastic or both. As shown,  FIG. 12C  illustrates an exploded view of a different embodiment of the base portion of the cup lid having a channel for the straw to travel up and out of the cup lid and a raised circular friction male/female coupling system that allows for the disengagement/reattachment of the top container to the cup lid below.  FIG. 12D  illustrates a rotationally aligned embodiment of the container of  FIG. 12C  that utilizes a clamshell style cover with tabs for easy opening and wherein the clamshell style cover is configured to open away from the straw and wherein the contents of the cup are accessed via a channel in a vertical sidewall of the bottom cup lid via the straw and wherein the base portion of the cup lid utilizes the channel and coupling system of  FIG. 12C . 
         FIG. 13  illustrates a cross sectional view of  FIG. 12 , along with a tri-bend straw configuration. 
         FIG. 14  illustrates a bottom perspective view of the embodiment of the invention shown in  FIG. 12  along with an embodiment of the press-on friction dome cover and a straw hole located in the vertical wall of the cup lid. 
         FIG. 15  illustrates a perspective view of an embodiment of the invention coupled with a cup, an optional press-on friction dome cover with a hole for a spoon/fork or any other eating utensil and configured to allow access to the contents of the cup via a straw.  FIG. 15A  illustrates an alternate embodiment shown in  FIG. 15  that is rotationally aligned and wherein the container includes an hinged lid with an internal friction press-on element wherein the hinged lid opens away from the straw via easy open tabs with strength ribs. 
         FIG. 16  illustrates a cross sectional view of  FIG. 15 . 
         FIG. 17  illustrates a bottom perspective view of the embodiment of the invention shown in  FIG. 15  along with an embodiment of a press-on friction dome cover and a straw hole located in the horizontal wall of the cup lid. 
         FIG. 18  illustrates an embodiment of the invention with a swivel cover and independent drop-in/removable container. 
         FIG. 19  illustrates an embodiment of the invention that employs a hinge lid/cover. 
         FIG. 19A  shows embodiments of  FIG. 19  configured for use with a straw. 
         FIG. 20  illustrates a close-up of the hinge lid/cover coupling element of  FIG. 19 . 
         FIG. 21  illustrates a rotational cover with a closeable embodiment of the invention with a large opening to enable access of the contents of the container with fingers. 
         FIG. 22  illustrates a rotational cover with a closeable embodiment of the invention with an optional seal-on/peel-off cover, and medium size opening to enable access of the contents of the container by lifting and pouring the contents into the mouth.  FIG. 22A  illustrates an embodiment with grip ridges for ease of rotation and vertical rotational value limiter or post along with optional indicators for rotation direction.  FIG. 22B  illustrates a seal-on/peel-off cover with a laser or die score line and outward oriented tab that attaches to the lid container and shows an exploded view of the lid container showing a rotation trough that limits the rotational travel of the post of the cover and which may implement click-stops to form a click-stop trough.  FIG. 22C  shows the tab removed to enable access to the first solid or liquid in the lid container.  FIG. 22D  shows the click-stop post and click-stop trough in greater resolution, and shows the click-stop bumps that provide indexed rotation values for the top cover when the click-stop post engages the click-stop bumps for example.  FIG. 22E  illustrates a cutaway view of the rounded bottom corner of the lid/container. That provides for easy pouring of the solid and/or liquid items into the mouth.  FIG. 22F  illustrates a multi-compartment embodiment side view in transparent mode to show for example the internal components of the invention while additionally a flared or wide top opening is shown that indicates a fill line for liquid that is placed within the cup.  FIG. 22G  illustrates a perspective view of the multi-compartment embodiment.  FIG. 22H  illustrates an exploded view of the multi-compartment embodiment.  FIG. 22I  illustrates a cutaway side view of an embodiment of the multi-compartment embodiment showing the saltshaker element free from coupling along with two coupling areas.  FIG. 22J  illustrates perspective views from top and bottom and a side view of the multi-compartment embodiment.  FIG. 22K  illustrates a cutaway view of the multi-compartment embodiment with food items stored in the various compartments.  FIG. 22L  illustrates an internal wall oriented press-on friction lid with an integrated inward facing alignment bump and a corresponding half circle indent in the outer vertical wall of the lid/container. 
         FIG. 23  illustrates a rotational cover with a closeable embodiment of the invention with a medium size opening to enable access of the contents of the container by lifting and pouring the contents into the mouth wherein the container may be in the form of an independent drop-in/removable seal-on/peel-off unit, which may be optionally scored and may be foil or any singular or plural combination of materials.  FIG. 23A  illustrates another embodiment of the invention with a rotational trough in the lid/container and downward peg in the cover along with a rounded bottom independent drop-in container and grip ridges in the vertical wall of the cover for ease of rotation.  FIG. 23B  illustrates a second embodiment of the independent drop-in container and lid container that include male/female interface elements. 
         FIG. 24  illustrates a rotational/hinge lid/cover configured for example to hold a cookie or other item and configured with posts, for example grab posts, and optional snap open and close elements.  FIG. 24A  illustrates another embodiment of the invention that employs grip ridges on the rotational cover for ease of rotation. 
         FIG. 25  illustrates the embodiment of  FIG. 24  with the cover off and showing a food item and optional cut-outs for lifting the food item for example. 
         FIG. 26  illustrates an embodiment for example as shown in  FIGS. 24 and 25  with a straw hole. 
         FIG. 27  illustrates the embodiment of  FIG. 26  in further detail. 
         FIG. 28  illustrates an embodiment with an optional seal-on/peel-off cover and non-rotational hinge lid/cover that may be configured to click open or closed for example. 
         FIG. 29  illustrates an embodiment of  FIG. 28  with a straw hole. 
         FIG. 30  illustrates an embodiment related to  FIG. 28  configured for an independent drop-in/removable container. 
         FIG. 31  illustrates an embodiment of  FIG. 30  in further detail. 
         FIG. 32  illustrates an embodiment of  FIG. 30  with a straw hole. 
         FIG. 33  illustrates an embodiment having a round off center volume to hold an optional cup/arm rest independent drop-in/removable container and a straw hole and optional container cover configured to fit under the bottom of the large cup and also on top of the cup/arm rest independent drop-in removable container as well. 
         FIG. 34  illustrates the embodiment of  FIG. 33  in greater detail. 
         FIG. 35  illustrates the cup/arm rest independent drop-in/removable container in an armrest hole and shown in the bottom portion of the figure above the armrest. 
         FIG. 36  illustrates a lower perspective view of the cup/arm rest independent drop-in/removable container with container press-on friction cover also configured to fit the bottom of the cup/arm rest independent drop-in/removable container on the bottom and top of the container. 
     
    
    
     DETAILED DESCRIPTION 
     A cup lid with integrated container will now be described. In the following exemplary description numerous specific details are set forth in order to provide a more thorough understanding of embodiments of the invention. It will be apparent, however, to an artisan of ordinary skill that the present invention may be practiced without incorporating all aspects of the specific details described herein. In other instances, specific features, quantities, or measurements well known to those of ordinary skill in the art have not been described in detail so as not to obscure the invention. Readers should note that although examples of the invention are set forth herein, the claims, and the full scope of any equivalents, are what define the metes and bounds of the invention. 
       FIG. 1  illustrates an exploded view of an embodiment of cup lid  100   a  with integrated container or cavity  101   a  shown above cup  130 , along with any solid/liquid  120  or food item such as a cookie for example that fits in cavity  101   a , and cover  110   a , that covers the food item while the food item is in container  101   a . Cup lid  100   a  includes coupling element  107  that allows the cup lid to couple with the cup. 
     Cup lid  100   a  includes at least one wall  102 , for example that leads to container bottom  103 , which for example may also be considered part of wall  102 . As used herein, the term “wall” is not limited to a surface of any shape, but rather refers to the separation between container  101   a  and the contents of cup  130 . Specifically, embodiments of the invention include at least one wall that defines container  101   a  that is configured to store a first solid or a liquid separate from a second solid or liquid stored in cup  130  wherein cup  130  generally includes an annular opening that lies in a plane on top of the cup. The cup as shown also includes a rolled rim  131  that coupling element  107  is configured to couple with to hold cup lid  100   a  onto cup  130 . Specifically, coupling element  107  is configured to couple at least one wall to the annular opening on top of said cup, for example by stretching over the smaller diameter portion of the coupling element to allow the rolled edge of the cup to fit into the slightly larger diameter portion of the cup lid. Coupling element  107  is an exemplary form of attachment and any form of attachment may be utilized to couple cup lid  100   a  to cup  130 , as one skilled in the art will appreciate, including for example a coupling element that includes a more difficult type of coupling to remove or even a permanent coupling. Container cover  110   a  is optionally configured to couple via coupling element  122  to coupling element  121  of cup lid  100   a . An alternative is to extend the vertical sidewall of  110   a  such that coupling element  122  is configured to couple to coupling element  107  of cup lid  100   a  for example. 
     Horizontal area  104  includes hole  105   a  for example for a straw or sip hole and optional indented cut-outs  106 . Optional elements include rotation indexer  108  and air hole  109 . Rotation indexer  108  is described below with respect to its relation to cover  110   a . Other optional elements may include optional indicators not shown for brevity, for example configured to press in to show whether the contents of cup  130  are for example diet/regular soda or caffeinated/decaffeinated or to show any other information in a tactile or visible manner. 
     At least one wall is configured to enable access of the first solid or liquid and the second solid or liquid without disengagement of the coupling element. For example, the contents of both integrated container  101   a  and cup  130  are accessible without removing the cup lid. This greatly simplifies eating and drinking in cars, theaters and sport stadiums for example that are equipped with one cup-holder per seat. 
     Cover  110   a  as shown is configured as an external wall friction press-on cover, but may also be configured as a seal-on/peel-off, press-on friction dome, press-on friction dome with hole, internal and external wall friction press-on, internal wall friction press-on, hinge or rotational cover, so long as the cover is configured to at least partially enclose the container and retain the contents of the container when the cover is coupled with corresponding version of the cup lid. As shown, cover  110   a  includes hole  115  to allow access of hole  105   a  when cover  110   a  is coupled with cup lid  100   a  and cover  110   a  may also include holes  118   a  and  118   b  that provide discrete rotation values for cover  110   a  when one or the other hole is rotated over the top of rotation indexer  108  on cup lid  100   a . In one angular rotation, hole  105   a  is open for access and in the other angular rotation, hole  105   a  is thus closed by cover  110   a . When open, i.e., when hole  105   a  is exposed through cover hole  115 , air hole  109  is exposed via hole  118   b  and when closed, air hole  109  is also closed by cover  110   a.    
       FIG. 2A  illustrates a bottom view of an embodiment of the invention. At least one wall  102  includes a vertical dimension that extends to, into, out of, or both into and out of the plane defined by the annular opening of the cup. Even though  FIGS. 1 and 2  show a limited depth container  101   a , it is noted that this depth may be large enough to hold a typical amount of popcorn in the container while the cup holds a typical amount of soda in the cup.  FIG. 2B  shows a side view of an embodiment of the invention having a vertical dimension that extends down to the plane of the cup opening—this embodiment for example may be utilized to hold a cookie while cup  130  holds a cappuccino for example.  FIG. 2C  shows a side view of an embodiment of the lid container with a cup shown in dashed lines, having a vertical dimension that extends into the plane of the cup opening, this vertical dimension may be of any size and can be increased such that the embodiment, for example, may be utilized to hold popcorn while cup  130  holds soda for example. Furthermore, at least one wall  102  includes a horizontal dimension, for example across the diameter of the container, having a width less than, equal to, or greater than a width measured across the annular opening of the cup. See also  FIG. 12  for embodiments wider than the opening of the cup for example. The embodiment shown in  FIG. 2C  may itself hold popcorn and fit into a standard popcorn cup that is then utilized for soda, and/or may fit into a cup that has a narrower, or stepped configuration on the bottom half of the cup so as to fit into a standard stadium or movie theater seat cup holder for example. Any type of cup that allows for an embodiment of the invention to be utilized in conjunction with a cup holder for an automobile, or stadium seat, movie theater seat or any other type of cup holder is in keeping with the spirit of the invention. 
       FIG. 3  illustrates a perspective view of an embodiment of the invention  100   b  coupled with cup  130 , seal-on/peel-off cover  110   b  and configured to allow access to the contents of the cup via straw  301   a . The straw configuration is shown as one embodiment, although another embodiment may provide a sip hole or gulp hole for example. Area  302  may include graphic symbols or lettering or both graphic symbols and lettering of visual or tactile form, or logos, advertisements, bar codes, puzzles, promotions, trivia or information or any combination of any information, including thermochromic materials that show different information based on temperature. 
       FIG. 4  illustrates a cross sectional view of  FIG. 3 . As shown, the cup may be a soda, lemonade, coffee, or beer cup, for example, and is not limited to cups with a rolled rim, which are shown herein in an exemplary manner. One or more areas or walls may include a thermochromic plastic configured to change color based on a temperature of the first solid or liquid in the container. First solid or liquid  120  may include any combination of one or more cookies, chocolates, chips, crackers, nuts, popcorn, candies, ice cream, frozen yogurt, fruit pieces, burgers, French fries, sandwiches, milk, cream or any other item. Second liquid or solid in cup  130  may include any combination of ice cream, milk shake, frozen ice, ice coffee, milk, lemonade, water, soda, coffee, beer, mixed alcoholic beverage, frozen ice, ice coffee, or any other item. 
       FIG. 5  illustrates a top perspective view of the embodiment of the invention shown in  FIG. 3 . The horizontal area on top of the embodiment shown includes hole  105   a  to allow access of the second liquid or solid, i.e., the contents of the cup. Without removing the cup lid, a person may also access the contents of the container on top of the cup. An optional vertical raised area surrounding the sip hole  105   a  is provided to elevate the sip hole area such that the user&#39;s lip does not come into contact with the potentially sharp edge of the container cover. The cover may optionally include any type of hole or cut out area such as a half oval for example that allows for hole  105   a  in the cup lid to be accessed. This is shown as a crescent indentation of cover  110   b  towards the centerline of the cup lid near hole  105   a . Cover  110   b  is shown as vertically indented slightly downward to match the three finger indented cut-outs in the cup lid. Vertically indenting the cover acts to locate the cover in a desired position, however this is not required, and cover  110   b  may be implemented in any shape including a flat or planar embodiments as desired. 
       FIG. 6  illustrates a top view of the embodiment of the invention shown in  FIG. 3 . The peel-off tab is shown at the bottom of the figure and allows for the seal-on/peel-off type cover  110   b  to be removed from the cup lid with cavity. 
       FIG. 7A  illustrates a side cross sectional view of the embodiment of the invention shown in  FIG. 3 . Indented cut-outs  106  are configured to facilitate removal of items from within the container. The indented cut-outs are not required as some types of items to be stored in the container may not need cut-outs for finger access, e.g., ice cream. As shown the walls include two lines which may indicate a particular thickness of one wall or may indicated two or more walls to enable for more insulative embodiments. 
       FIG. 7B  illustrates a side cross sectional view of the embodiment of the invention shown having two or more coupling elements configured to couple with cups of different sizes. In this figure, more than one coupling element, here  107  having different diameters are employed so that embodiments of the invention may fit different sized cups. For example, the embodiment shown in  FIG. 7B  may be sized to couple with large or small coffee cups or large or small soda cups. In addition, three or more coupling elements  107  may also be employed having three or more differing diameters, so that embodiments of the invention may couple with small, medium and large cups as one skilled in the art will appreciate. In this manner, only one size of cup lid, albeit with as many diameter coupling elements as desired, may be utilized to accommodate the different sized cups utilized. Although the embodiment shown has vertically offset coupling elements, other embodiments may utilize coupling elements that are horizontally offset without a vertical offset, as one skilled in the art will appreciate. 
       FIG. 7C  illustrates different embodiments of coupling elements that may be utilized with embodiments of the cup lid. Cross section of coupling element  107   a  is similar to coupling element  107 , and may be easier to decouple from the cup lid based on the large angle at bend  177   a . Cross section of coupling element  107   b  is a harder-to-remove version of coupling element  107  based on the smaller angle at bend  177   b , which requires more force to remove from the rolled edge of a cup for example. Cross section of coupling element  107   c  shows a semi-permanent or permanent coupling element based on the hook-like sharp angle at bend  177   c . Depending on the stiffness of the material utilized in construction of the cup lid, the sharp angle at bend  177   c  may allow for the entire cup, even if full of liquid, to be lifted by the cup lid. This prevents spills by keeping the cup lid and cup attached even with large forces involved. As one skilled in the art will appreciate, multiple diameter coupling elements (as shown in  FIG. 7B ) on one cup lid may utilize any combination of the coupling elements  107   a ,  107   b  or  107   c  in any embodiment of the invention. For example, in one embodiment, the smallest diameter coupling element on the top portion of  FIG. 7B  may utilize coupling element  107   a  or  107   b  while the lower coupling element on the bottom portion of  FIG. 7B  may utilize coupling element  107   b  or  107   c  for example to allow for more strength for large cups that may weigh more. Any number of different diameters may be utilized with any embodiment of the coupling element and any other coupling element known in the art may be utilized if desired and based on the application, as one skilled in the art will appreciate. 
       FIG. 8  illustrates a perspective view of an embodiment of the invention  100   a  coupled with cup  130 , press-on friction cover  110   a  and configured to allow access to the contents of the cup via straw  301   a.    
       FIG. 9  illustrates a cross sectional view of  FIG. 8 . Press-on friction cover  110   a  extends down the sides of the cup lid to couple with the cup lid as is described in more detail below with respect to  FIG. 10 . 
       FIG. 10  illustrates a top perspective view of the embodiment of the invention shown in  FIG. 8  along with an embodiment of a press-on friction cover. As shown, cover coupling element  121  on embodiment  100   a  is optionally configured to couple with cover coupling element  122  on cover  110   a . This allows for cover  110   a  to press onto cup lid  100   a  in a non-permanent manner that allows for cover  110   a  to be removed by pulling cover  110   a  vertically as shown with enough force to move cover coupling element  122  away from cover coupling element  121 . An alternative is to extend the vertical side wall of  110   a  such that coupling element  122  is able to couple to coupling element  107  on cup lid  100   a.    
       FIG. 11  illustrates a top view of the embodiment of the invention shown in  FIG. 8  showing sip hole open/close rotation index  108  of which there are two in the embodiment shown of which one is called out with reference number  108 , the other of which is not called out for brevity, vacuum release pin hole  109  and hole  105   a . Optional indicators may also be utilized on the top of cover  110   a  (not shown for brevity), which may be tactile or visual indicators of any information, including information as to whether the contents of the container or cup are of a certain type, e.g., chocolate/vanilla, caffeinated/decaffeinated, diet/regular, or any other information. 
       FIG. 12A  illustrates a perspective view of an embodiment of the invention  100   c  with a container with an optional upper press-on friction dome style cover  110   c  coupled with cup  130 , and configured to allow access to the contents of the cup via straw  301   b . An alternative to using a press-on friction dome cover is to use an optional clamshell hinge cover, which may be selected depending upon the shape and height (hamburger, for example) of the food item that is chosen to reside within the container, is shown in  FIG. 12B . In addition,  FIG. 12B  illustrates a rotationally aligned embodiment of the container of  FIG. 12A  with tabs  1905  for easy opening of the cover and wherein the clamshell style cover is align in one orientation so as to open away from the straw and wherein the contents of the cup are accessed via a hole in a vertical sidewall of the bottom cup lid via the straw. In one or more embodiments, tabs include strengthening ribs that project relatively orthogonal to the plane of the tabs to provide for a stronger tab and/or enable use of thinner plastic or both. The strengthening ribs are also shown in  FIG. 19  as downward indentations that provide strength for the tabs. Clamshell hinge containers that may be utilized may have covers that may be upwardly contoured (in any shape), domed, or flat. Clamshell hinge containers may be molded and die cut from one piece of material where the upper and bottom parts are connected by a bridge of material that has a perpendicular hinge trough, (single or double trough) located at the halfway point of the bridge that connects the two halves. The clamshell hinge cover may optionally include a hole through the top for a fork or a spoon. To keep the clamshell hinge container closed while transporting food from one location to another, the top and bottom of the container may be held together by any type of friction element(s). An example of a friction system that may be utilized is where the top lid inserts slightly downward into the bottom container at the edge where the two meet, i.e., internal wall friction press-on lid or cover. Another friction system that may be employed is male and female indentations of any shape or size that mate together and are located in the horizontal surface of the lip edge that surrounds the top lid and bottom container at the point where the two meet. Any of the embodiments of the cup lid may include a separate or integrated thermal or paper liner configured to reside within the container and configured to hold hot or cold items as one skilled in the art will appreciate. Alternatively, or in combination, at least one wall may be a double wall having for example an air gap that provides additional insulation between the temperatures in the container versus the cup as one skilled in the art will appreciate.  FIG. 12C  shows channel  105   c  with a hole in the inner portion of the base of the cup lid for straw  301   b  to exit from the cup. The upper portion of cup lid  100   c  may attach in any manner such as via a circular male/female coupling element  1201  to the lower portion of the cup lid that couples with the cup at  1202 , as shown in the figure surrounding the straw channel. In one or more embodiments of the invention, the bottom portion of cup lid  100   c , i.e., the lower portion of the container, may include a non-permanent, semi-permanent or permanent coupling element to attach with the lower portion of the cup lid shown attached to the top of the cup. In this manner, the container portion of cup lid  100   c  may be disengaged from the lower portion of the cup lid that then remains on the cup. The coupling element between the upper portion of cup lid  100   c  and lower portion of the container may be of any type in relation coupling elements. See for example the vertical wall coupling element that couples with the cup itself, shown in  FIG. 7A , coupling element  107  for example. A screw type of coupling, or adhesive, or one-way coupling element may also be utilized as desired to provide for non-permanent, semi-permanent or permanent coupling types. In addition to a male/female coupling system, there may be male/female alignment elements (female element  2101  shown while male counterparts not visible on the bottom of the container) as shown in  FIG. 12B  that align the top clamshell container and lid below, such that, for example, as the top clamshell container opens, it faces the straw location and user. This has the advantage of a frontward oriented configuration in relation to the user, for opening the clamshell container. Frontward oriented opening is ergonomic, logical, and user friendly. This is also shown in  FIG. 12D , albeit with the female indentation shown on the opposing side of the straw with respect to the embodiment of  FIG. 12B . There is no requirement for the male/female alignment elements to be in any shape or quantity so long as the top and bottom portion of the container may be rotationally aligned at a desired orientation to keep the clamshell opening away from the straw for example. Alternatively, in the absence of male/female coupling systems, the bottom horizontal surface of the lower portion of the container may be permanently bonded to the upper horizontal surface of the cup lid that attaches to the cup rim via heat or thermo-bonding, sonic bonding or welding, spot welding or fusing, epoxy bond, hot melt glue bond, transfer adhesive bond, or double-sided tape bond. 
       FIG. 13  illustrates a cross sectional view of  FIG. 12  showing straw  301   b  exiting from a vertical wall  1301  of embodiment  100   c . A straw with more than one bend for example may be utilized with this embodiment. Having the straw hole and straw exit through the vertical side wall is advantageous, in that the straw resides outside of the adjacent food container, which means that the straw never interferes with the food that is in the container. 
       FIG. 14  illustrates a bottom perspective view of the embodiment of the invention shown in  FIG. 12  showing hole  105   b  along with embodiment that includes the optional press-on friction dome cover  110   c . The top horizontal area of the lower cup lid that couples with the cup via coupling element  107  may be bonded to the upper container in any manner or may be formed as part of the upper container as desired. Cover  110   c  may couple with container  100   c  in any manner desired as one skilled in the art will appreciate. Cover  110   c  may be optionally attached to  100   c  via a clamshell style hinge. When  110   c  and  100   c  are attached they are made from a single piece construction in one or more embodiments. 
       FIG. 15  illustrates a perspective view of an embodiment of the invention  100   d  coupled with a cup, an optional press-on friction dome cover  110   d  with hole  1501  for example for access of the contents of the top container via spoon  1502  and configured to allow access to the contents of the cup via a straw via a hole in a horizontal portion of cup lid  100   d . This embodiment has a horizontal dimension of the bottom of the container that is less than the diameter of the opening of the cup as opposed to the embodiment shown in  FIG. 12  for example. The smaller diameter of the bottom of the top food container is advantageous in that it allows room for a straw hole and straw to reside within the horizontal surface of the cup lid, such that the liquid in the bottom cup may be accessed. Locating the straw hole and straw adjacent to the top food container means that the straw is located next to, or to the side of, the food container, which is advantageous, as the straw does not interfere with the container, or the food that resides within the container. An alternative to using a press-on friction dome cover is to use an optional clamshell hinge cover, which may be selected depending upon the shape and height (muffin  1550 , see  FIG. 15A , for example) of the food item that is chosen to reside within the container. This is shown in  FIG. 15A  as an embodiment with easy opening tabs  1905 . The advantage of easy opening tabs is that as they overhang past the top lip edge of the bottom container, they are unobstructed by any plastic from the bottom container lip edge. Access to the unobstructed overhang tabs is from the underside where it is easy to lift them with a thumb and/or fingers. Clamshell hinge containers that may be utilized may have covers that may be upwardly contoured (in any shape), domed, or flat. Clamshell hinge containers may be molded and die cut from one piece of material where the upper and bottom parts are connected by a bridge of material that has a perpendicular hinge trough located at the halfway point of the bridge that connects the two halves. The clamshell hinge cover may optionally include a hole through the top for a fork or a spoon. To keep the clamshell hinge container closed while transporting food from one location to another, the top and bottom of the container may be held together by any type of friction element(s). An example of a friction system that may be utilized is where the top lid inserts slightly downward into the bottom container at the edge where the two meet, i.e., internal wall friction press-on lid or cover. Another friction system that may be employed is male and female indentations of any shape or size that mate together and are located in the horizontal surface of the lip edge that surrounds the top lid and bottom container at the point where the two meet. Other lids or covers that may be optionally utilized are seal-on/peel-off covers, which may be used with fruit containers, for example, to seal in the fruit and keep it fresh, while additionally, the container may couple via male and female elements to the cup lid attached to the cup. A male/female coupling system may be utilized to couple the bottom horizontal surface of the container to the top horizontal surface of the lid that attaches to the rim of the cup, or alternatively, these surfaces may be permanently attached or bonded to each other via heat or thermo-bonding, sonic bonding or welding, spot welding or fusing, epoxy bond, hot melt glue bond, transfer adhesive bond, or double-sided tape bond. In addition to a male/female coupling system, there may be male/female alignment elements (female element  2101  shown while male counterparts not visible on the bottom of the container) that align the top clamshell container and lid below, such that, for example, as the top clamshell container opens, it faces the straw location and user, which is advantageous as a frontward oriented configuration in relation to the user, for opening the clamshell container is ergonomic, logical, and user friendly. 
       FIG. 16  illustrates a cross sectional view of  FIG. 15 . Although the vertical dimension of the container has a depth that is at the plane of the opening of the cup, this is not required and may be of any depth into or out of the plane defined by the opening of the cup as desired based for example on the type of solid or liquid to be placed in the container and also in the cup. 
       FIG. 17  illustrates a bottom perspective view of the embodiment of the invention shown in  FIG. 15  along with an embodiment of the optional press-on friction dome cover with a hole. As shown hole  105   a  is located in a horizontal plane of the cup lid as opposed to the embodiment shown in  FIG. 13  where the straw hole is located in the vertical portion or wall of the cup lid based on the diameter of the container in that embodiment which has an overall horizontal dimension, including the bottom of the container that is greater than the diameter of the opening of the cup for example. 
       FIG. 18  illustrates an embodiment of the invention with swivel cover  110   s  and independent drop-in removable container  1801 . As shown cup lid  100   s  includes a sip hole/straw or gulp-size hole/straw  105   d  shown on the left side of the figure, although optionally a straw of any shape or size may be utilized in conjunction with this hole. The side walls of sip hole/straw  105   d  may optionally be of any height with respect to the top of cup lid  100   s , and if tall enough may be utilized in place of a straw. In addition, this embodiment includes swivel cover  110   s  that may be opaque or transparent or any level of translucency as desired. In one or more embodiments, although not shown in  FIG. 18  for brevity, the axis of rotation of the swivel cover may be around the sip hole, straw hole or gulp hole or located anywhere else on the cup lid. The swivel cover  110   s  is swiveled shut to close off or contain the contents of the independent drop-in/removable container after the seal-on/peel-off cover is removed and discarded. In one or more embodiments, the swivel cover is closed to contain loose contents such as nuts prior to lifting and tilting the cup in order to gulp or sip liquids such as beer. Spilling loose contents from the top container is not an inherent issue when using straw configurations. Independent drop-in/removable container  1801  may utilize a clamshell type lid that is attached to the upper top edge of the container at any location. In this clamshell embodiment, the independent container  1801  and the press-on friction lid for example may be made as a one piece construction. Although not shown within  FIG. 18  for brevity, the independent drop-in/removable container may clip or fasten via various coupling elements and/or systems within the lid cavity in any manner. As one skilled in the art will appreciate, more than one independent drop-in/removable cups or containers may be placed in the lid cavity or cavities, for example cream and sugar. One such clip-on or coupling system that may be utilized is previously shown in  FIG. 12B , where  100   c  is configured to clip on or couple, via a horizontal wall bottom-oriented system, to the cup lid that is positioned directly below. Vertical wall ridge based coupling systems may also be utilized to attach the independent drop-in/removable container to the lid cavity. An example of an independent drop-in/removable container that may use a bottom-oriented coupling system within the lid cavity, is a low-profile, single-cookie container with a seal-on/peel-off cover that clips within the lid cavity of a coffee cup. An additional example is an independent drop-in/removable container with a seal-on/peel-off cover that holds beer nuts that couples within the lid cavity of a plastic beer cup. Additionally, a coupling system may have been used in this latter embodiment, where a circular ridge based coupling system is located in the vertical wall area of the independent drop-in/removable container and cup lid cavity. This additional vertical wall location, where a circular ridge based coupling system may occur, applies to fixing a low-profile cookie container to a coffee-cup lid cavity, or fixing a medium-deep, i.e., proceeds vertically downward into the cup volume, salty-sweet nut container to a beer-cup lid cavity, or a high-profile hamburger or French-fry container to a beer, soda, or milk shake lid cavity. 
       FIG. 19  illustrates an embodiment of the invention, namely hinge lid/cover  110   e  that couples with cup lid  100   e . As shown, cup lid  100   e  is oriented above cup  130   a  and then coupled to cup  130   a  either before or after hinge lid/cover  110   e  is coupled with cup lid  100   e . Cup  130   a  in this embodiment may include a widened portion, shown just beneath the rim of cup  130   a , which may be utilized as a fill line for example. The fill line shows how much liquid may be placed into cup  130   a  so that when cup lid  100   e  is coupled with the cup, the liquid does not spill out of the cup. In other words, container  101   a  may extend down into cup  130   a  (depending on the height of the vertical side walls of cup lid  100   e ), and the fill line shows the safe level of liquid that may be displaced by container  101   a  without liquid for example exiting hole/straw  105   e . The side walls of sip hole, gulp hole, or straw  105   e  may be of any height with respect to the top of cup lid  100   e , e.g., embodiment  105   e   1  shown in the left portion of the lower two side views in the bottom left of the figure, and as shown having a horizontal portion at the top edge of the hole/straw in the perspective view. If tall enough, the hole may be utilized in place of a straw, e.g., embodiment  105   e   2  shown in the right portion of the lower two side views in the bottom left of the figure. In either embodiment the top portion of the sip hole or gulp hole  105   e  may optionally include a horizontal area having a hole or alternatively include no horizontal surface, such as a rounded surface for example. Straight cups such as cup  130  shown in  FIG. 1  may also be utilized with this embodiment of the cup lid and may or may not include a fill line that is indented or drawn on the inside or outside of the cup to show how much liquid may be placed in the cup for a given depth of container  101   a  and/or vertical wall height of cup lid  100   e . Alternatively, multiple fill lines, either physically shaped as shown in cup  130   a  or with slight indentations or markings or colors may be utilized. Any other type of fill line may optionally be utilized in keeping with the spirit of the invention. Cup  130   a  may be made from paper, plastic, hard-molded plastic (with or without double wall construction), ceramic or metal, such as stainless steel, for example. 
     Hinge lid/cover  110   e  may be permanently or non-permanently coupled with cup lid  100   e . Hinge lid/cover  110   e  and cup lid  100   e  may be made from two separate pieces or may be formed as one piece, such as a typical clamshell construction. Hinge lid/cover  110   e  may attach to cup lid  100   e  through various methods of attachment other than male and female parts that mate or interlock. In the absence of male and female parts for example, two flat surfaces may be attached to each other via thermo-bonding, sonic bonding or welding, spot welding or attached with adhesive or any other permanent or non-permanent bonding mechanism. Hinge  1904  may be formed with any type of mechanism that allows hinge lid/cover  110   e  to make the contents of container  101   a  available, including an axle, tooth and hook, pivot, trough, score line, double score lines or any other mechanism. As shown female indent  1901  couples cup lid  100   e  with male extension  1902  on hinge lid/cover  110   e  to enable hinge lid/cover  110   e  to open by pivoting or folding at trough  1904 . Optional second male extension  1903  may snap into second female indentation  1902  to hold hinge lid/cover  110   e  open. All female and/or male indentations or extensions respectively may include narrowing areas or bumps that enable the male and female parts to snap together to hold the parts together. Alternatively, hinge lid/cover  110   e  may be welded or permanently attached in any other manner to cup lid  100   e . Trough  1904  may be implemented as shown or alternatively may utilize a double score line, i.e., two closely spaced indentations that enable hinge lid/cover  110   e  to bend at those two locations to enable a full 180 degree rotation or pivot of hinge lid/cover  110   e  about an axis parallel to the two score lines. 
     Tabs or grasp tabs  1905  and tab indents or grasp tab indents  1906  enable opening of hinge lid/cover  110   e  while hole/straw  105   e  enables access of the contents of cup  130   a  directly or via a straw. The grasp tabs may optionally include strength ribs  1907  as shown. The contents of container  101   a  may be accessed, then hinge lid/cover  110   e  may be closed against cup lid  100   e  and then re-opened again when desired. Thus, intermittent access to the contents of cavity  101   a  and re-closure of cavity  101   a  is provided through hinge lid/cover  110   e . The access of liquid may occur while the hinge lid/cover  110   e  is in either the open or closed position. Embodiments of the cup lid cavity  101   a  (also see  FIG. 1 ) may optionally include a paper liner or ruffled paper liner or any other type of liner that separates the cup lid from the food item placed inside the cup lid. Embodiments of the cup lid may optionally include one or more vacuum release air holes  1908 . As one skilled in the art will recognize, hole/straw  105   e  may be made to fit a straw or may be of any other size. Embodiments of the invention may also utilize indented cut-outs  106  placed in the top horizontal wall adjacent to (as shown in  FIG. 1 ) the container area to enable easier access to cookies or other food items for example. 
       FIG. 19A  shows embodiments of  FIG. 19  configured for use with straw  301   a . One or more embodiments include a straw hole instead of the raised gulp-sized hole as shown in  FIG. 19  for example. Embodiments as shown in  FIG. 19A  may be utilized for stadium cold drink embodiments for example or for any other scenario where a straw and hinged lid/cover and container are desired. 
       FIG. 20  illustrates a close up of the hinge lid/cover coupling element of  FIG. 19 . As shown, bump  2001  in a female indentation may snap against bump  2002  in a corresponding male extension to hold hinge lid/cover to the cup lid and/or hold the hinge lid/cover in the open position. By constructing the two female indentations of slightly different size and by constructing the two male extensions of corresponding slightly smaller size, all four elements may fit within one another. Alternatively, multiple indentations in the cup lid may be utilized to hold the hinge lid/cover to the cup lid in a non-rotational manner and hold the hinge lid/cover to the cup lid in a specified area. 
       FIG. 21  illustrates a rotational lid with a closeable embodiment of the invention with large opening  2110  to enable access of the contents of the container with fingers for example. As shown, cup lid  100   f  includes sip/gulp hole  105   f  and interlocking female indentations  2101 . Cover  110   f  includes a corresponding sip/gulp hole  105   f  and male extensions  2102  that couple with female indentations  2101 . This interlocking arrangement keeps large opening  2110  in cup lid  100   f  from rotating with respect to cup lid  100   f . Alternatively, more than one coupling ridge may be used to couple covers  110   g ,  110   f  to cup lid  100   f . Rotational lid  110   g  couples with cover  110   f  via ridge  2107  and  2106  that couples with ridge  2105  on cup lid  100   f . Rotational lid  110   g  may be rotated for example using grasp tab or post  2103  to close container  101   a  as shown in closed arrangement  2150  or rotated further to open container  101   a  for access as shown in open arrangement  2151 . Any number of vacuum release air holes may be employed on any embodiment described herein if desired. 
       FIG. 22  illustrates a rotational cover with a closeable embodiment of the invention with medium size opening  2210 , to enable access of the contents of the container  101   a  ( FIG. 1 ) by lifting and pouring the contents into the mouth. Opening  2210  may be sized large enough for example to enable nuts or other small food items to pass through opening  2210 . First open arrangement  2250  shows sip/gulp hole  105   f  aligned over the corresponding sip/gulp holes in the cover  110   f  and cover  100   f  shown respectively beneath the rotational cover  110   g  in the figure. Second open arrangement  2251  shows medium size opening  2210  (for nuts for example) aligned over the corresponding hole in the cover  110   f  when the rotational cover  110   g  is rotated to align cover holes  2210 . Although not shown for brevity, there may be rotational stop elements as part of the configuration that stop the rotational cover at specific locations (to align holes) configured to allow access to either the sip/gulp hole or snack/nut hole. Closed arrangement  2253  is shown with neither sip/gulp hole  105   f  or hole  2210  aligned over holes in the additional cover and/or lid. This prevents access to the contents of the cup or cup lid. This embodiment is arranged similarly to the embodiment shown in  FIG. 21 , albeit with a smaller opening  2210 . Additionally, less rotation is required to open and close the hole openings shown in  FIG. 22  versus  FIG. 21 . In addition, optional seal-on/peel-off cover  110   b  may be provided to cover or otherwise enclose the contents of the cup lid cavity. If provided, seal-on/peel-off cover  110   b  may include a pull tab  2212  with optional score line so that only a portion of the seal-on/peel-off cover  110   b  is opened via the tab. If seal-on/peel-off cover  110   b  is utilized on the cup lid  100   f , then the middle cover  110   f  is optional. Alternatively, if no score line for the tab is provided, the tab may open the entire container of the cup lid as desired. The embodiment shown may be utilized for a beer/nut combination for example or any other combination of items that may be accessed through sip/gulp hole  105   f  and hole  2210 . 
       FIG. 22A  illustrates an embodiment with grip ridges  2261  for ease of rotation and vertical rotational value limiter or post along with optional indicators for rotation direction. Rotational embodiments of the invention may include vertically oriented grip ridges  2261  that project outward, or inward-depending on number and spacing of ridges, from the exterior vertical wall of the cover that provide any number of exterior leverage or grip bumps for turning the top cover. The top cover may be rotated in order to align openings  2220  and  2221  over the hole in the lid container to access the second solid or liquid in the cup or the first solid or liquid in the lid container or independent drop-in container under the rotational cover. In the upper left hand side of the page, opening  2220  is shown closed to disallow access to the corresponding solid/liquid and opening  2221  is shown in the open position to allow access. In the upper right hand side of the page, opening  2220  is shown open and opening  2221  is shown closed. The bottom rotational value shows both openings effectively closed. In one or more embodiments, click-stop post  2262  may project downward from the top horizontal surface of the top cover. Embodiments may optionally employ vacuum release hole  2263   a  in the top cover and vacuum release hole  2263   b  in the lower lid/container if desired and as shown in  FIG. 22B . One or more embodiments of the invention utilize rotational arrows  2264  that may be raised, recessed, or printed, and in addition, informative words such as “drink” and “snack” or any other combination of words that instruct the user in relation to the various options that the embodiment as a whole may provide, for example particular rotational values of the top cover. 
     In one or more embodiments, the lower lid/container may utilize a crescent shaped, downward oriented, click-stop trough  2265 , shown in  FIG. 22B , that limits the rotational value of the top cover by limiting the travel of post  2262  in the trough. The click-stop trough enables a limited rotational range with secure rotational values to be set for the top cover at one or more, or any number of discrete angular rotations for example at least at the far clockwise and far counterclockwise rotational values of the click-stop trough  2265 . In one embodiment,  FIG. 23A  for example, click-stops are used for open and fully closed rotational values for example so that the rotational values not only are limited but also securely set to prevent accidental rotation away from those rotational values. Embodiments that utilize click-stop troughs may employ opposing click-stop bumps  2266 , as shown in  FIG. 22D , vertically oriented in the lower lid/container, for example in the vertical interior wall of the click-stop trough. This enables the click-stop post to engage potential wells at desired rotational settings to secure the top cover at those rotational settings for example. 
     Embodiments may also utilize seal-on/peel-off layer  2268  that is applied directly to the top horizontal surface of the lower lid/container such that the lower lid becomes container  100   g  and there is no need for a secondary independent drop-in container, which furthermore eliminates one component from the embodiment. This reduces the cost of materials. One or more embodiments may also utilize a half-circle laser or die scored line  2285  (as shown in  FIG. 22B ) in the seal-on/peel-off layer located adjacent to the pull-tab  2269 . When the pull-tab is lifted a specific amount of material is removed from the seal-on/peel-off layer to the inside of the score line such that a nut or snack size opening in created. This is also shown in  FIG. 22C . 
       FIG. 22D  shows four opposing sets of click stop bumps at  2266  (see  FIG. 23A  for click stop bump locations at the far clockwise and counterclockwise rotational portion of the trough) that provide for three click-stop settings, namely full rotated clockwise with two bumps (as shown in  FIG. 22D ), two sets of bumps to provide a middle indexed rotation value as shown in this figure along with two other bumps near the sip hole. Other embodiments may utilize any number of click-stop settings, in which case the container cavity may be sub-divided with vertical walls thus forming various individual cavities that correspond to the click-stops for example. Two sets of click stop bumps may be utilized proximally to both ends of the click-stop trough (as shown in  FIG. 23A ) for example where there is no closed setting and one of two holes in the top rotational cover is left open to access either a solid or liquid in the fully clockwise or fully counterclockwise rotational position. 
     Embodiments may also include vacuum release hole  2263   a  and/or  2263   b , which allows fluids to flow easily from the drink cup, and additionally enables easy coupling and decoupling of the lower lid/container to the cup and/or top cover to the lower lid/container for example. Embodiments may also include a lower cup lid with a raised horizontal surface area at the sip/gulp hole location  2267  which allows the raised surface to become flush with the bottom horizontal surface of the top cover such that a leak preventative seal is created. 
     Rounded bottom corners  101   b  are shown at  FIG. 22E  that enable easier pouring of the first solid or liquid, i.e., rounded bottom corners  101   b  of lid container  100   g . Specifically, in one or more embodiments, the bottom outer diameter corners of the independent drop-in container and/or lower lid/container may have large soft rounded corners  101   b  so when lifting and tilting the drink cup, snacks and round food items such as nuts roll smoothly off the large soft “ramped” corners and easily into the mouth. Rounded bottom corners may also be utilized in multi-compartment embodiments as shown in  FIGS. 22F-22K . 
       FIG. 22F  illustrates a multi-compartment embodiment side view in transparent mode to show the internal components, for example an embodiment of cup lid/container  100   h  that employs multiple compartments that are sub-divided by vertical walls.  FIG. 22G  illustrates a perspective view of the multi-compartment embodiment. For example, as shown in  FIG. 22H , there may be more than one downward projecting compartments  191 ,  192 ,  193 ,  194  and  195  in the lower lid/container and one gulp or sip size hole  105   z  cut through the top horizontal wall of the top rotational cover. The downward oriented vertical wall compartments may be configured in various sizes or shapes and may contain solids and/or liquids. For example the various compartments may contain, salt, tequila, lime and nuts, while beer may be located in the large cup below. Any solid(s) and/or liquid(s) may be held within the compartments. The salt component of the embodiment may be configured as a small removable circular mushroom cap style saltshaker  2292  for example. The small independent drop-in saltshaker  2292  may be centrally located via a corresponding downward female indent  2293  in the top horizontal wall of the lid/container and top cover. The saltshaker may couple in or press-fit into the female indent. Although the various compartments may project above or below the horizontal plane that is formed by the annular opening of the cup, the example shown here is where the various compartments project substantially downward into the horizontal plane formed by the annular opening. See also  FIG. 22I  that illustrates a cutaway side view of an embodiment of the multi-compartment embodiment showing the saltshaker  2292  free from coupling along with two coupling areas, for example one centrally located and one located in the bottom horizontal wall of the tequila shot cavity. Additionally any of the four defined compartments mentioned in the above embodiment may utilize an independent drop-in container that may be held in place under the top cover. 
     Although more than one hole may be implemented in the top horizontal wall of the top rotational cover to access the first solid(s) and or liquid(s), shown here for example is one large hole  105   z  that is located proximal to the outer vertical wall of the top rotational cover. The top rotational cover with a singular large hole for example may be rotated into any of the corresponding positions in order to access the contents of a desired compartment while the other compartments and the gulp/sip hole may remain covered or contained. If the singular large hole in the top cover is aligned with the gulp/sip hole in the lower lid/container, then the three remaining compartments for example in the lower lid/container may remain covered or contained, depending on the rotational implementation of the hole and compartments as desired. The solid(s) and/or liquid(s) may be consumed in a sequential order, which may be advantageous to the user. For example the salt shaker may be removed and utilized first while the tequila shot may be consumed second. Consuming the tequila shot second (rather than later) may prevent tequila from leaking between the top cover layer and lower lid/container layer while the cup is lifted and tilted toward the mouth as additional solid(s) and/or liquid(s) items are consumed. After being utilized the saltshaker  2292  may be stored by being press fit into a female downward indent in the bottom horizontal wall of the compartment that just moments before held a tequila shot. Additionally after being utilized the one-quarter-size slice of lime may be discarded or concealed within the same compartment in which it originated. The top cover may be opaque or transparent and can be made in any color. If the top cover is transparent a colored portion, e.g., a Red circle may be printed around the outer edge of the large hole located in the top horizontal wall so that the hole is easy to see or identify as it aligns over the selected compartment. Alternatively, or in combination, glow in the dark FDA approved plastic or glow in the dark printable ink for example may be utilized to show the locations of holes or rotational settings for example to aid in partying at night or in dark conditions. 
     The top rotational cover embodiment as shown in  FIG. 22H , with the single large hole  105   z  for example may optionally employ small round rotation indexers  2280   a  (four shown for example) or upward oriented female indents or holes in the top horizontal wall proximal to an outer edge that corresponds with small round upward male protrusions  2280   b  (two shown for example) in the top horizontal wall of the lower lid/container. Conversely, the top cover may employ downward male protrusions as rotation indexers rather than employing upward female indents or holes. If downward male protrusions are used in the top rotational cover then the lower lid/container may have corresponding female indents. Due to leakage, holes may not be utilized in one or more embodiments as female receptacles in the lower lid/container. One or more downward or upward male protrusions, and corresponding female indents, may be employed as rotation indexers in either the top cover or lower lid/container. As shown, there are two small round upward male protrusions in the top horizontal wall of the lower lid/container, while there are four corresponding female indents in the top horizontal wall of the top cover. Any number of either indexer(s) may be utilized on the top cover or lid container to index rotational values of the top cover to provide more secure rotational settings for example. A vacuum release hole may be placed proximal to the gulp/sip hole in the top horizontal wall of the lid/container  2263   c , for example to enable better flow through hole  105   z  when aligned to access a liquid in the cup.  FIG. 22J  illustrates perspective views from top and bottom and a side view of the multi-compartment embodiment.  FIG. 22K  illustrates a cutaway view of the multi-compartment embodiment with food items stored in the various compartments. Also shown in  FIG. 22K  is a rounded or ramped bottom corner  101   b , for example which enables food to easily pour into the mouth while the cup is lifted and tilted for the consumption of solid and/or liquid items. 
     Shown in  FIG. 22H , the outer vertical sidewalls of the lid/container may be raised  2283   a , between the clip-on ridge that fastens the lid/container to the cup and the top circular corner edge of the lid/container. Additionally, the vertical sidewall  2283   b  may be raised in the same location on the top cover which provides for a lower lip bumper/cushion as well as a vertical wall area in which the vertically oriented outward protruding turn/grip ridges for example may be located. Optionally, grip ridges are not located in the vertical wall for approximately one inch and a half directly below the location where the large hole is located in the top horizontal wall at the outer edge of the top cover in the embodiment shown. 
     One or more embodiments,  FIG. 22F  may utilize a small outward step in the vertical sidewall  2286  of the large cup that causes the upper portion of the cup to widen or become larger. Additionally this small continuous step creates a horizontal ring or fill line in the vertical sidewall. The fill line indicates how much fluid to place within the cup such that the fluid does not interfere with the downward compartments of the lid/container. 
     The clip-on ridge in the outer vertical sidewall of the top rotational cover also acts as a circular rotational trough that allows that top cover to rotate into specific desired positions. The vertical wall clip-on ridge that couples the lid/container to the cup rim also doubles as a rotational ridge for the top rotational cover. 
     In one or more embodiments as shown in  FIG. 22G , an optional slightly downward oriented football shaped indentation, i.e., not a hole, in the top cover acts as a plug over the gulp/sip hole in the lid/container when the top cover is rotated to access nuts for example or other solids and/or liquids. The football shaped plug prevents liquids from leaking between the top and lower layer as nuts or other items are poured into the mouth. 
     An optional circular downward oriented foot peg  2270  shown in  FIG. 22J  may be configured in the top horizontal wall of the lower lid/container. The foot peg is located diagonally across from the largest compartment that may be used to store nuts for example. The foot peg allows the lower lid/container to remain level when placed on a level surface, which reduces space consumption when lid/containers are stacked in rows inside of a shipping box. 
     The largest compartment  192  that may be used for nuts for example may have a large rounded corner or ramp wall  101   b  integrated into the bottom front corner, e.g., closest to the vertical wall of the cup, which allows round food items such as nuts to roll easily into the mouth as the cup is lifted and tilted toward the mouth during the process of consuming the nuts or other items. 
     The rotational embodiment as described above may be made from flexible thin wall plastic, or ridged hard plastic, or any combination of these materials. The thin wall embodiment may be disposable while the hard plastic embodiment may be reusable. If hard plastic is used the lower lid/container may attach to the top edge of the large cup and the top cover may attach to the lower lid/container using any method that is obvious to those who are familiar with the art, such as utilizing threads, latches, seals, e.g., silicon, etc., snaps ridges, clip ridges, or any male/female components. The top cover may be thin flexible plastic, which may be reusable while the lower lid/container and large cup may be rigid hard reusable plastic. The overall embodiment may be constructed from thin, flexible, thermoformed disposable plastic which is a cost effective material that reduces the price of the final product. 
       FIG. 23A  illustrates another embodiment of the invention with a rounded bottom independent drop-in container along with grip ridges on the cover for ease of rotation (see  FIG. 22A ). For example in one embodiment, there are two small half circle non-rotational alignment elements  2290  that project outward from the top lip of the independent drop-in container. These two small half circle non-rotational alignment elements provide a visual aid for orienting the independent container unit as it drops into the lower cup lid.  FIG. 23B  shows additional non-rotational alignment elements  2291   a  that may be optionally configured into the bottom horizontal wall surface of the independent drop-in container and  2291   b  in the bottom horizontal wall surface of the lower cup lid. For example, in one or more embodiments, there may be a matching or mating non-rotational alignment element in the bottom horizontal wall of both the independent drop-in container and lower cup lid. The lower lid alignment element is configured as an upward protruding pill shape, e.g., narrow rectangle with rounded ends  2291   b , or male indent that is centrally located in the bottom horizontal wall where the pill shape does not intersect with the vertical sidewall of the lower lid and additionally is oriented in a perpendicular fashion to the long dimension of the gulp/sip hole. There is a corresponding female pill shaped indent  2291   a  in the bottom horizontal wall of the independent drop-in the container in one or more embodiments. The alignment indents keep the drop-in container from rotating which keeps the nut size opening for example located directly opposite the gulp/sip hole that is located in the top horizontal wall near the outer edge of the lower cup lid. 
     In addition to using a directly applied seal-on/peel-off layer, there is the optional choice of utilizing an internal wall press-on friction type lid  2293  as shown in  FIG. 22L  which comes with a large nut, snack, or liquid size opening  2284  that is molded or pre-cut out of the outer diameter edge that forms the circumference of the lid. The friction lid may press fit into a specific desired position by the use of male and female alignment elements in the vertical sidewall that may occur, for example as a half round outward bump  2292   a  that may be positioned at any outer diameter location and additionally faces inward toward the center of the press-on friction lid, lower lid/container and/or drop-in container. There may be a half circle indent  2292  in the outer vertical sidewall of the lid/container that is located at the same outer diameter as the bump in the interior vertical sidewall of the lid/container and/or drop-in container such that the indent fits or “spoons” within the interior bump where only a small top horizontal gap wall occurs between the two elements for example. The half circle indent in the outer vertical sidewall of the lid/container is deep enough to intersect and go under the top horizontal lip of the press-on lid such that a finger tip may be placed within the indent and lifted to remove the press-on lid. The top horizontal wall of the lid/container may be recessed  2292   a  to receive the outer lip of the press-on lid such that the press-on lid nestles into the top horizontal wall and is flush after being press fit into the lid/container. The press-on friction lid may be made from thin wall disposable plastic, or if the embodiment is made to be reusable, the press-on friction lid may for example be made from hard injection molded plastic. 
       FIG. 23  illustrates a rotational cover with a closeable embodiment of the invention with a medium size opening to enable access of the contents of the container by lifting and pouring the contents into the mouth wherein both contents and container may be in the form of a sealed drop-in/removable unit, optionally with a scored seal-on/peel-off cover made from foil or any other material or combination of materials. One or more embodiments of the invention may include one or more alignment tabs  2321  that fit within alignment slots  2322  to keep the independent drop-in/removable container  1801  from rotating. 
     Embodiments of the invention may utilize seal-on/peel-off cover  2301  and press-on friction covers (not shown but which are known to close a container that has been opened by pressing the cover onto an open container) alone or in combination as desired for the intended application. As shown, seal-on/peel-off cover  2301  may include a score line  2310  and tab  2311 , wherein once tab  2311  is removed along the score line, the contents of container  1801  may be accessed. A portion of the closed cover is shown with reference characters  2310  and  2311 , while the full cover albeit with the open portion is shown to the left of the partial view. In one or more embodiments of the invention the entire cover of container  1801  may be removed via a tab or in any other manner. 
       FIG. 24  illustrates a rotational/hinge lid/cover configured for example to hold a cookie or other item and configured with grasp tabs or posts and optional snap open element  2402  and snap close element  2401 . These may be configured as optional bumps that enable the hinge lid to snap open and shut respectively. Without bumps the hinge lid may stay secure in the closed position via press-on friction systems of engagement for example. Grasp tabs  2403  enable the hinge lid/cover to be opened and optional cut-outs  2404  for example enable easy extraction of a food item from within the cup lid cavity. As shown, a cookie for example is held within the cup lid. The top of the cup lid rotates to open position  2410  and closed position  2411 . Embodiments may hold one or more cookies, doughnut(s) or muffin(s) for example. The hinge may be formed in any manner including double score lines or through use of any other element.  FIG. 24A  shows ridges  2261  that enable easier grip and rotation of the top cover with respect to the lid container for example. 
       FIG. 25  illustrates the embodiment of  FIG. 24  with the cover off and showing a food item, for example the cookie shown between the cover and the cup lid and optional indented cut-outs  2404  for lifting the food item for example. The hinge lid/cover may have a longer vertical sidewall and clip to the lower ridge  107  that attaches to the cup rim, as well as ridge  121 . Optional vacuum release air holes may be located anywhere in embodiments of the invention, as shown on the right side of the cup lid,  100   t  for example.  2405  shows an optional raised male post that includes an optional small raised bump on the inside wall that faces the cup lid cavity. This male post and bump ridge allow the hinge lid/cover to click into place while in the open position. 
       FIG. 26  illustrates an embodiment for example as shown in  FIGS. 24 and 25  with a straw hole and top cover that is non-rotational in one or more embodiments. Bump(s) may be located at  2401  to enable the hinge lid to click shut for example. 
       FIG. 27  illustrates the embodiment of  FIG. 26  in further detail. 
       FIG. 28  illustrates an embodiment with an optional seal-on/peel-off cover  110   b  and non-rotational cover that may be configured to click open for example. Sip/gulp size opening  2803  is shown along with non-rotational element(s)  2801   a  and  2801   b  and optional seal-on/peel-off cover  110   b.    
       FIG. 29  illustrates an embodiment of  FIG. 28  with a straw hole at enlarged area  2901 . In one or more embodiments of the invention, the container volume is as deep at  2902  as desired for the particular food item(s) that are to be held. The crescent shaped inward indentation  2903  in the vertical sidewall of the cup lid container provides ample room for a straw to move freely within the lower main cup cavity without being constricted by the vertical side walls of the lower main cup and cup lid cavity. 
       FIG. 30  illustrates an embodiment configured for independent drop-in/removable container  1801   b . As shown on the right side of the figure, exploded view  3001  shows the hinge lid/cover, seal-on/peel-off cover, container, cup lid and cup vertically oriented from top to bottom along with integrated view  3003 . 
       FIG. 31  illustrates an embodiment of  FIG. 30  in further detail. As shown, the independent drop-in/removable container  1801   b  is held in place by being sandwiched between the bottom cup lid  3103  and the top hinge lid/cover  3101 . Top hinge lid/cover  3101  overlaps the rim edges of the independent drop-in/removable container  1801   b  such that the container cannot exit the cavity, for example. Also shown in great detail is bump  3104  that enables the hinge lid to snap open, for example. 
       FIG. 32  illustrates an embodiment of  FIG. 30  with a straw hole. The crescent shaped inward indentation  2903   a  in the vertical sidewalls of the independent drop-in container and the cup lid container provide ample room for a straw to move freely within the lower main cup cavity without being constricted by the vertical side walls of the main cup and the vertical sidewalls of the inwardly located adjacent containers. 
       FIG. 33  illustrates an embodiment having a round off center volume to hold an optional cup/arm rest independent drop-in/removable container  1801   c  and a straw hole and optional container cover  3302  configured to fit under the bottom of the large cup and also on top of the cup/arm rest independent drop-in/removable container as well. A seal-on/peel-off cover may optionally be applied directly to the cup lid with cavity in place of using a cup/arm rest independent drop-in removable container. Recesses  3303  may be of any depth, and may be optionally employed to enable container  1801  to be removed from the cup lid. These are shown at the bottom left configuration as two diagonally opposed slots. The upper right portion of the figure shows the optional drop-in container with seal-on/peel-off cover configured within the cup lid cavity in cutaway view. Although not shown for brevity, the optional drop-in container may have a medium-sized (for nuts and candy) score line (laser or any other method) in the seal-on/peel-off cover. The score line aligns with the removal tab located at the outside edge of the cover. When the drop-in container is removed from the lid cavity and the tab with medium-sized cover portion is removed, then the container may be lifted to the mouth, and a small amount of the contents may be shaken into the mouth, while the majority of the contents are retained within the container by the remaining cover material. 
       FIG. 34  illustrates the embodiment of  FIG. 33  in greater detail. As shown in the closed orientation, lid  3402  is situated on top of the cup/arm rest independent drop-in/removable container to enable the container to be closed and taken home for example. The diameter of the cup/arm rest independent drop-in/removable container is configured to have a diameter as shown at  3401  that enables the arm rest independent drop-in/removable container to fit within the hole of an arm rest that is part of a seat in a theater or stadium for example. Cover  3402  may be held to the bottom of the large cup and top of the independent drop-in container via friction or in any other manner for example. Cover  3402  may also be held to the bottom of the independent drop-in/removable container via male-female counterparts as shown for example or in any other manner. 
       FIG. 35  illustrates the cup/arm rest independent drop-in/removable container in an arm rest hole and shown in the bottom portion of the figure above the arm rest. Cup/arm rest independent drop-in/removable container with seal-on/peel-off cover  110   b  is shown in arm rest  3501 . Container  1801   c  is shown without the seal-on/peel-off cover while in the hole of the arm rest in the middle configuration. Container  1801   c  may be closed with cover  3402  and removed from the arm rest and taken home for example. 
       FIG. 36  illustrates a lower perspective view of the cup/arm rest independent drop-in/removable container  1801   c  with container cover  3402  also configured to fit the bottom of the cup/arm rest independent drop-in/removable container on the bottom and top of the container. Cover  3402  may also be held to the bottom of the cup/arm rest independent container via male/female counterparts as shown for example or by friction or any other mechanism or method. 
     Any embodiment of cup described herein may be made or include any material including but not limited to paper, plastic, hard molded plastic, ceramic, metal, stainless steel, and may utilize any type of optional seal such as silicon for example between the cup and the cup lid. Additionally, if the cup and cup lid with integrated cavity are made of hard non-flexible plastic for example, the secondary lid that covers the integrated cavity may be made entirely from molded silicon of various hardness. Embodiments employing hard plastic may utilize an insulative double wall construction in the vertical side walls and/or bottom of the lower main cup as desired per application. 
     Embodiments of the invention may be utilized with the BOTTOMS-UP™ draft beer dispensing system that fills beers from the bottom of the cup, or with any other dispensing system. Embodiments of the invention may be utilized with INSULAIR™ insulated cups or any other insulated cup. 
     While the invention herein disclosed has been described by means of specific embodiments and applications thereof, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope of the invention set forth in the claims. Various configurations of the invention have been shown—each containing individual embodiments. For the sake of brevity and repetition not all embodiments have been mentioned in every configuration. The embodiments described herein may implement or combine any features from any other embodiment and as such any new configuration/embodiment combination, which arises from embodiments herein, is in keeping with the spirit of the invention.