Patent Publication Number: US-2023146668-A1

Title: Single serve systems, apparatuses, and methods

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     The present application is a continuation-in-part of U.S Pat. Application No. 17/406,658, filed Aug. 19, 2021, which claims the benefit of and priority to U.S. Provisional Pat. Application No. 63/067,941, filed Aug. 20, 2020, U.S. Provisional Pat. Application No. 63/119,002, filed Nov. 30, 2020, and U.S. Provisional Pat. Application No. 63/154,698, filed Feb. 27, 2021. The entire contents of each of the foregoing applications are hereby incorporated by reference herein. 
    
    
     TECHNICAL FIELD 
     This disclosure relates to a pod for a single serve brewing system and also relates to associated apparatuses for assembling and loading the pod. 
     BACKGROUND 
     Home brewing and preparation of coffee, tea and other brewing is well known in the art. As one example, and only for ease of explanation, brewing coffee at home has grown common in society. Coffee preparation is the process of turning coffee beans into a beverage. Coffee, as one example, is generally made by pouring hot water onto coffee grounds. The water is then typically filtered through to remove the coffee grounds, and provide a user with coffee to drink. 
     Various methods of home brewing are well known in the art including using a drip brew coffee and/or a drip brewed coffee machine, a filtered coffee, a pour-over, an immersion brewer, a percolator, a French press, or a single serve coffee apparatus that filters coffee through a single cup, providing a single serving size. 
     The transition from pot brewing, or brewing an entire carafe of coffee, to single cup brewing has grown very popular and commonplace in recent years. Single serve brewing systems let a predetermined amount of water (generally heated) go through a coffee portion or single serve cup (filled with coffee grinds). A single serve cup is also known as a coffee pod. 
     In this way, and as is known in the state of the art, a user can brew a single, standardized cup of coffee. This is beneficial for speed, ease, and decreasing waste of time and resources in brewing an entire pot of coffee or similar. Furthermore, single serve coffee pods also allow a user to control portions, strength, temperature at brewing, temperature at consumption, and a number of other factors. This convenience, depending on the single serve method, is often provided at the touch of a button. 
     A common single serve brewing method is through the use of disposable coffee pods. Disposable coffee pods are generally pre-packed and shipped with a measured amount of grounds within each sealed, single serve container. These single serve coffee pods are then inserted into machines to be punctured, brewed, and then disposed of. Single serve coffee pods are generally made of plastic and sometimes metal. This type of single serve coffee pod, most commonly used, generates large amounts of waste. Furthermore, these coffee pods usually cannot be recycled because they contain food waste from coffee, tea leaves, or the like. Some single serve pods can be recycled if food waste is first removed and the plastic cups are cleaned out. Then, in this case, and in some circumstances, the remaining plastic may possibly be recycled. This build of plastic waste pollutes landfills with billions of plastic coffee pods every year. Furthermore, these plastic single serve pods tend to be expensive, relative to the price of coffee. A user may often find they can purchase hand-crafted coffee at a more affordable price. Complicating matters further, single serve plastic or metal coffee pods provide a very harsh taste. As heat and fluid extract ingredients, they also extract plastic and/or metal or other materials (which the single serve pod) is constructed from. This often results in a poor quality taste and potentially unhealthy consequences of single serve pod brewing. 
     An alternative solution, existing in the art as of recently, provides a commercially compostable single serve pod. Some of the commercially compostable options, which have emerged recently, may potentially break down in a landfill. Many of these options are unproven but could potentially prove fruitful in reducing landfill waste. However, these options are not reusable and tend to be very expensive. This option still results in environmental harm due to production and shipping of the commercially compostable single serve pods, which can be intensive to produce and ship. Furthermore, the expense of commercially compostable single serve pods has shown evidence of forcing people back to the plastic option. Furthermore, the commercially compostable material, and the nature of the material that must be used tends to remove all flavor from the ingredients within, drastically reducing the flavor of the final brewed cup, especially over increased durations of time. One of the primary reasons for loss in coffee flavor, in a single-serve plastic cup, may be due to oxidation and/or the exposure of coffee grounds to the air. In fact, some coffees should be brewed within 24 hours of grinding. Thus, there is still a need in the art for a more sustainable and environmentally friendly solution that still provides a flavorful cup of single brewed beverage, or the like. 
     Another alternative which has emerged in the art is a reusable single serve coffee pod. This device is a single serve pod with a metal mesh that can filter the ingredients of coffee grounds and the like. Generally, this device has a lid and a basket-like piece that must be cleaned before each use (and must be cleaned manually). Unfortunately, the design and shape of these pods do not allow for efficient emptying of used ingredients because these designs have a closed basket-like piece that does not allow for ease in cleaning. Oftentimes, materials or contents are left behind which can mold or cause bacterial growth, and this can cause subsequent cups to be brewed based on aged ingredients and can affect taste. Due to the time, effort, and other shortcomings involved with current reusable pods, these solutions have also proven to be difficult as a replacement for plastic single serve pods. Furthermore, the reusable pods, as a failure of design tend to be disposed of often, causing plastic and metal to continue to contaminate landfills. Thus, this alternative solution fails to eliminate landfill waste, ease of use, or taste defects which are plaguing the art. 
     Thus, there is a long-felt need in the art for an environmentally friendly, more easy-to-use single serve brewing solution that maintains flavor while providing longevity, among solving other long-felt needs plaguing the art. 
     The disclosure herein provides these advantages and others as will become clear from the specification and claims provided. 
     SUMMARY 
     A single serve pod system, a single serve pod assembly apparatus, a reusable pod apparatus, a single serve pod , a process of assembling the single serve pod, and methods of use are presented herein. More specifically, and without limitation, the present disclosure provides a single serve pod system for the preparation of a single serve pod in accordance with brewing coffee, tea, and/or other brewing that is environmentally friendly, reduces landfill waste, and maintains the integrity of flavor 
     The present disclosure provides a single serve pod system which improves upon the state of the art and provides a convenience for users, while also providing an environmentally friendly solution to many problems plaguing the art today. The present disclosure provides a solution to cleaning issues, cleanliness issues, waste issues, assembly issues, portioning issues, freshness issues, and more. 
     In the present disclosure, as further described herein, the present disclosure provides a single serve pod system that may provide a user with a fresh and easy to use filter for each single serve cup, while also reducing waste and/or providing environmental consciousness. Furthermore, the present disclosure provides solutions that are relatively cost effective, quick, and efficient. 
     In various embodiments, as one example, the present disclosure provides a single serve coffee pod which combines reusability, disposability, and biodegradability with convenience. Furthermore, the present disclosure combines the unique single serve coffee pod with a novel assembly apparatus that provides for portionality, cleanliness, and convenience, among other features and components and advantages. 
     Aspects of the disclosure provide a reusable pod apparatus and a single serve pod that are compatible with existing single serve brewing equipment. 
     In accordance with aspects of the present disclosure, a system includes a filter configured for a single serve brewing system where the filter includes a lip and a cavity configured to hold a brew ingredient, a reusable ring configured to hold the filter to be used in the single serve brewing system and, after being used in the single serve brewing system, to release the filter, where the reusable ring is bottomless and is removable from the single serve brewing system, and a reusable lid configured to cover a top of the reusable ring where the reusable lid includes at least one aperture. The reusable lid, the filter, and the reusable ring combine to form an assembled single serve pod in which the reusable lid covers the top of the reusable ring, the lip of the filter is held between the reusable lid and the reusable ring, and the cavity of the filter extends through the reusable ring. The assembled single serve pod is configured to be insertable into the single serve brewing system for brewing a brewed beverage and to be removable from the single serve brewing system. 
     In various embodiments of the system, the filter is configured to be used for a single brew in the single serve brewing system. In various embodiments of the system, the filter is formed of paper. 
     In various embodiments of the system, the reusable ring includes a ring body and a rim extending from a top of the ring body. 
     In various embodiments of the system, in the assembled single serve pod, the reusable lid rests on the rim of the reusable ring. 
     In various embodiments of the system, the system includes a heat-resistant ring configured to surround the ring body of the reusable ring. 
     In various embodiments of the system, the system includes a single serve pod assembly apparatus that includes an assembly station configured to receive the reusable ring and the filter. 
     In various embodiments of the system, the single serve pod assembly apparatus includes a filter dispenser configured to dispense a plurality of filters. 
     In various embodiments of the system, the single serve pod assembly apparatus includes a single housing that houses the assembly station and the filter dispenser. 
     In various embodiments of the system, the single serve pod assembly apparatus includes a storage container configured to hold a brew ingredient, and a hook configured to hang a scoop where the scoop is configured to scoop the brew ingredient from the storage container and to transfer the brew ingredient into the filter in the assembly station. 
     In various embodiments of the system, the single serve pod assembly apparatus includes a single housing that houses the assembly station, the filter dispenser, and the storage container. 
     In various embodiments of the system, the single serve pod assembly apparatus includes a grinder configured to produce the brew ingredient. 
     In accordance with aspects of the present disclosure, a single serve pod includes a filter configured for a single serve brewing system where the filter includes a lip and a cavity configured to hold a brew ingredient, a reusable ring configured to hold the filter to be used in the single serve brewing system and, after being used in the single serve brewing system, to release the filter, where the reusable ring is bottomless and is removable from the single serve brewing system, and a reusable lid configured to cover a top of the reusable ring where the reusable lid includes at least one aperture. The reusable lid, the filter, and the reusable ring combine to form an assembled single serve pod in which the reusable lid covers the top of the reusable ring, the lip of the filter is held between the reusable lid and the reusable ring, and the cavity of the filter extends through the reusable ring. The assembled single serve pod is configured to be insertable into the single serve brewing system for brewing a brewed beverage and to be removable from the single serve brewing system. 
     In various embodiments of the single serve pod, the filter is configured to be used for a single brew in the single serve brewing system. In various embodiments of the single serve pod, the filter is formed of paper. 
     In various embodiments of the single serve pod, the reusable ring includes a ring body and a rim extending from a top of the ring body. 
     In various embodiments of the single serve pod, in the assembled single serve pod, the reusable lid rests on the rim of the reusable ring. 
     In various embodiments of the single serve pod, the single serve pod includes a heat-resistant ring configured to surround the ring body of the reusable ring. 
     In accordance with aspects of the present disclosure, a system includes a filter configured for a single serve brewing system where the filter includes a lip and a cavity configured to hold a brew ingredient, and a reusable pod apparatus configured to hold the filter to be used in the single serve brewing system and, after being used in the single serve brewing system, to release the filter, where the reusable pod apparatus is bottomless and is removable from the single serve brewing system. The reusable pod apparatus and the filter combine to form an assembled single serve pod in which the reusable pod apparatus supports the lip of the filter and the cavity of the filter extends through the reusable pod apparatus. The assembled single serve pod is configured to be insertable into the single serve brewing system for brewing a brewed beverage and to be removable from the single serve brewing system. 
     In various embodiments of the system, the reusable pod apparatus includes a bottomless ring. 
     These and other objects, features, or advantages of the present disclosure will become apparent from the specification and claims. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG.  1    is a diagram of an example of a single serve pod system, in accordance with aspects of the present disclosure; 
         FIG.  2    is a perspective view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  3    is a top view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  4    is a bottom view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  5    is a front, elevation view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  6    is a rear, elevation view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  7    is a side, elevation view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  8    is a side, elevation view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  9    is a bottom, perspective view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  10    is another bottom, perspective view showing aspects of the single serve pod system of  FIG.  1   , in accordance with aspects of the present disclosure; 
         FIG.  11    is a diagram showing the single serve pod system of  FIG.  1    with an open storage container, in accordance with aspects of the present disclosure; 
         FIG.  12    is a diagram of components of the single serve pod system of  FIG.  1    in a disassembled and/or exploded state, in accordance with aspects of the present disclosure; 
         FIG.  13    is a diagram of an example of a filter, in accordance with aspects of the present disclosure; 
         FIG.  14    is a bottom, perspective view of the filter of  FIG.  13   , in accordance with aspects of the present disclosure; 
         FIG.  15    is a diagram of an example of a reusable pod apparatus, in accordance with aspects of the present disclosure; 
         FIG.  16    is a diagram of an example of an assembled single serve pod that includes the reusable pod apparatus of  FIG.  15    together with the filter of  FIG.  14   , in accordance with aspects of the present disclosure; 
         FIG.  17    is a diagram of an example of a reusable ring, in accordance with aspects of the present disclosure; 
         FIG.  18    is a bottom, perspective view of the reusable ring of  FIG.  17   , in accordance with aspects of the present disclosure; 
         FIG.  19    is a diagram of another example of a reusable pod apparatus, in accordance with aspects of the present disclosure; 
         FIG.  20    is a diagram of components of the reusable pod apparatus of  FIG.  19    in a disassembled state, in accordance with aspects of the present disclosure; 
         FIG.  21    is a top perspective view of the reusable ring in the reusable pod apparatus of  FIG.  19   , in accordance with aspects of the present disclosure; 
         FIG.  22    is a bottom perspective view of the reusable ring of  FIG.  21   , in accordance with aspects of the present disclosure; 
         FIG.  23    is a cross-sectional view of the reusable pod apparatus of  FIG.  19    with the lid closed, in accordance with aspects of the present disclosure; 
         FIG.  24    is a top perspective view of the reusable pod apparatus of  FIG.  19    with the lid closed, in accordance with aspects of the present disclosure; 
         FIG.  25    is a bottom perspective of the reusable pod apparatus of  FIG.  24   , in accordance with aspects of the present disclosure; 
         FIG.  26    is a diagram of an example of a reusable pod apparatus having a reusable lid with five apertures, in accordance with aspects of the present disclosure; 
         FIG.  27    is a diagram of another example of a single serve pod system with a built-in coffee grinder, in accordance with aspects of the present disclosure; 
         FIG.  28    is a cross-sectional view of the single serve pod system of  FIG.  27   , in accordance with aspects of the present disclosure; 
         FIG.  29    is a diagram of the pod drawer of the single serve pod system of  FIG.  27   , in accordance with aspects of the present disclosure; and 
         FIG.  30    is a diagram of the filter drawer of the single serve pod system of  FIG.  27   , in accordance with aspects of the present disclosure. 
     
    
    
     DETAILED DESCRIPTION 
     In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments in which the disclosure may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the disclosure, and it is to be understood that other embodiments may be utilized and that mechanical, procedural, and other changes may be made without departing from the spirit and scope of the disclosure(s). The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the disclosure(s) is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. 
     As used herein, the terminology such as vertical, horizontal, top, bottom, front, back, end, sides and the like are referenced according to the views, pieces and figures presented. It should be understood, however, that the terms are used only for purposes of description and are not intended to be used as limitations. Accordingly, orientation of an object or a combination of objects may change without departing from the scope of the disclosure. 
     Reference throughout this specification to “one embodiment,” “an embodiment,” “one example,” or “an example” means that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment of the present disclosure. Thus, the appearance of the phrases “in one embodiment,” “in an embodiment,” “one example,” or “an example” in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, databases, or characteristics may be combined in any suitable combinations and/or sub-combinations in one or more embodiments or examples. In addition, it should be appreciated that the figures provided herewith are for explanation purposes to persons ordinarily skilled in the art and that the drawings are not necessarily drawn to scale. 
     In accordance with aspects of the present disclosure, a single serve pod system (e.g.,  10 ), a single serve pod assembly apparatus (e.g.,  100 ), a reusable pod apparatus (e.g.,  250 ), a single serve pod (e.g.,  200 ), a process of assembling the single serve pod, and methods of use are presented. More specifically, in various embodiments, the present disclosure provides a single serve pod preparation system for the preparation of a single serve pod in accordance with brewing coffee, tea, and/or other brewing that is environmentally friendly, reduces landfill waste, and maintains the integrity of flavor. More specifically, in accordance with aspects of the present disclosure, the present disclosure provides a unique reusable pod apparatus (e.g.,  250 ) that is bottomless, easy to use, and usable with disposable filters. 
     The present disclosure provides a single serve pod system which improves upon the state of the art and provides a convenience for users, while also providing an environmentally friendly solution to many problems plaguing the art today. The present disclosure provides a solution to cleaning issues, cleanliness issues, waste issues, assembly issues, portioning issues, freshness issues, and more. 
     In the present disclosure, as is further described herein, the present disclosure provides a single serve pod system that provides a user with a fresh and easy to use filter for each single serve cup, while also reducing waste and/or providing environmental consciousness. Furthermore, the present disclosure provides solutions that are relatively cost effective, quick, and efficient by using, e.g., a bottomless, open, reusable pod apparatus (e.g.,  250 ) that allows for less cleaning, easier waste disposal, easier loading, easier storage, shorter profile, and ability to hang on a hook. 
     Single Serve Pod System 
     With reference to  FIG.  1   , a single serve pod system  10  is presented (which may hereafter be referred to simply as “system”). The single serve pod system  100  includes a single serve pod assembly apparatus  100  and an assembled pod  200 , among other components, which will be described below herein. The assembled pod  200  is a “single serve” pod in the sense that it is usable in a single serve brewing system (not shown) for a single brew that serves an individual. Accordingly, the assembled pod  200  may be referred to herein as a “single serve pod.” As explained below herein, portions of or all of the assembled pod  200  may be reusable for multiple brews in a single serve brewing system. Single serve pod system  10  is formed of any suitable size, shape and design and is configured to provide an easy, efficient system for assembly and use of a single serve pod  200 . 
     As explained in more detail below in connection with  FIG.  16   , the single serve pod  200  includes a filter  20 , a ring  40 , a lid feature  60 , an alternative lid feature  80 . Aspects of the single serve pod assembly apparatus  100 , among other features, components, and functionality, are described below in connection with  FIGS.  2 - 12   . 
     In the arrangement shown, as one example, the single serve pod system  10  may also include or may operate or communicate with remote servers, databases, application servers, application databases, product databases, mobile applications, and/or computers; all of which in continuity or as separate acts fulfill the functions and methods disclosed herein. 
     User 
     In the arrangement shown, as one example, system  10  is used by a user. User may be any user or person, or plurality of users interacting with or utilizing the system  10 . This may include filling or refilling ingredients in the storage container, scooping ingredients, filling or refilling filters, utilizing the assembly apparatus (to be further discussed herein), hanging or removing the reusable rings, placing filters within the reusable rings, placing the single serve pod into the assembly apparatus, assembling single serve pods, reusing and/or cleaning the system  10 , among other features and functionality. Furthermore, this may include viewing, controlling, analyzing, manipulating, and/or interacting with the system  10 . Furthermore, users are not limited to a single user but may be a plurality of users. Additional equipment might be utilized in operation, such as but not limited to, a single serve coffee brewing machine or the like. 
     Filter 
     In the arrangement shown, as one example and specifically with reference also to  FIG.  13    and  FIG.  14   , the system  10  includes one or more filters  20  (which may be referred to herein as a “coffee filter”, “ingredients filter”, “disposable filter”, or simply a “filter”). Filter  20  is formed of any suitable size, shape, and design and is configured to trap ingredients such as coffee grounds while allowing the liquid and/or water to flow through. In this way, filter  20  can remove unwanted compounds and/or unwanted particles during the brewing process. 
     In the arrangement shown, filter  20  extends from a top  22  to a bottom  24  having an exterior surface  26  and an interior surface  28  with a hollow interior/cavity  30  formed therein. The top  22  of the filter  20  includes a top lip  32 , or lip  32 . Lip  32  also extends the peripheral circumference, in the example shown. In this way, the lip  32  serves as a setting portion and/or gripping surface such that the reusable ring (to be further discussed herein) can secure the filter  20  in place. 
     Furthermore, in the arrangement shown, as one example, filter  20  includes an upper portion  34  and a lower portion  36 . The filter  20  shown, as one example, may also include measuring lines, among other features, components, and functionalities. Furthermore, the filter  20  may also be double or triple walled as desired from time to time. In the arrangement shown, as one example, the lower portion  36  of filter  20  is generally semi-spherical in shape and designed to house ingredients or other grounds therein. Similarly, the upper portion  34  of the filter  20  is configured to house ingredients and/or accept water therein while being shaped to act as a funnel which keeps grounds and/or other ingredients in the hollow interior/cavity  30  of the filter  20 . 
     In the arrangement shown, as one example, filter  20  is formed of a paper. In this way, water and/or liquid can move through the entirety of filter  20 , including the sides and the bottom. Similarly, in this way, the entire interior surface of the filter  20  provides for filter and/or funneling and the removal of pulp or particular grounds or tea leaves and the like. Furthermore, in this way, the structural components of filter  20  can be crimped into place. Crimping is one form contemplated for use, however, other forms of strengthening and/or creating the filter  20  are also hereby contemplated for use. 
     In the arrangement shown, as one example, filter  20  is formed of paper, whether bleached or unbleached, or the like. However, filter  20  may also be formed of a metal mesh, an alternative mesh, such as a nylon mesh, a plastic mesh, a combination thereof, or the like as will be able to remove a desired level of particulate. 
     In the arrangement shown, as one example, a single serve pod  200  generally is designed to accommodate a single filter  20  for a single brew. However, other numbers of filters  20  are also hereby contemplated for use. In the case of a metal mesh, the filter  20  may be used over and over again, while the paper filter  20  embodiment would likely be discarded after use. Furthermore, multiple filters can be overlaid, and the like. 
     In the arrangement shown, as one example, filter  20  is formed in a dome-like shape. In this way, the unique design and shape are configured to maximize the amount of coffee in the space and/or volume. In this way, extraction is maximized through the bottom of the filter, which increases and improves upon the state of the art of single serve coffee brewing. 
     Reusable Pod Apparatus 
     With reference also to  FIGS.  14 - 18   , in the arrangement shown, as one example, the system  10  includes a reusable pod apparatus  250  that is bottomless and includes a reusable ring structure  40  and optionally a reusable lid  60  or  80 . The reusable ring structure  40  may be referred to herein simply as “reusable ring.” Reusable ring  40  is formed of any suitable size, shape, and design and is configured to provide a reusable bottomless structure which can house and hold a single-use or multiple-use filter (e.g.,  20 ) for purposes of single serve brewing. 
     Said another way, reusable ring  40  is configured to couple to a filter  20 , utilize the filter for a single brewing process, and subsequently detach from the filter  20  in an easy and efficient manner. Then, reusable ring  40  is also configured to couple again to the filter  20  (if it is reusable) or to a new filter (in case of single-use filters) for purposes of brewing another and/or second single serve brew and/or single serve coffee. In this way, the reusable ring  40  is designed and configured to be used over and over in an easy to use, quick and efficient manner. 
     In the arrangement shown, as one example, reusable ring  40  is generally ring and/or circumferential in shape and has a top  42  and a bottom  44 . The ring  40  extends a perimeter and/or loop having a slender exterior surface  46  and a generally thin interior surface  48 . 
     In the arrangement shown, as one example, the reusable ring  40  is primarily made of a polymer. However, other materials are hereby contemplated for use, and may include metal and the like to be used in the attachment features of the reusable ring and/or a combination of various materials. Other materials might include, but are not limited to, polymers, enhanced polymers, metal, metal alloys, glass, enhanced glass, other materials, a combination thereof and the like. 
     Lip Feature of Reusable Ring: In the arrangement shown, as one example, the reusable ring  40  also includes a top lip  50 . Top lip  50  is formed of any suitable size, shape, and design and is configured to fit within close and tight tolerances of the lip  32  of the filter  20 . In this way, the filter  20  and/or the lip  32  of the filter  20  can be engaged with the lip  50  of the reusable ring  40  so that the filter  20  sits on top of the reusable ring  40  without slipping through the bottom or disengaging with the ring. In this way, filter  20  can be easily placed within reusable ring  40 . Similarly, filter  20  can be easily disengaged from the reusable ring  40  when the brewing process is complete. In this way, the filter  20  can be quickly engaged for single cup brewing, and then quickly ejected and/or discarded when the user is finished with the filter  20  and/or the ingredients and/or coffee grounds within the filter  20 . 
     Attachment Feature of Reusable Ring: Furthermore, and in the arrangement shown, as one example, the reusable ring  40  includes an attachment feature  52 . Attachment feature  52  is formed of any suitable size, shape, and design and is configured to operably connect the reusable ring  40  to a reusable lid  60  and/or to a reusable lid alternative  80  (to be further discussed herein). In the arrangement shown, as one example, the attachment feature includes a hinged connection for operably connecting the reusable ring  40  to the reusable lid  60 / 80 . However, other types of operable connections are hereby contemplated for use. 
     Catch Feature: In the arrangement shown, as one example, reusable ring  40  also includes a primary catch feature  54 . Primary catch feature  54  is formed of any suitable size, shape, and design and is configured to engage the reusable lid  60 / 80  (to be further described herein) with the reusable ring  40 . Additionally, the catch feature  54  and/or primary catch  54  engages the reusable lid  60 / 80  with the reusable ring  40  in such a way as to squeeze the lip  32  of the filter  20  between the reusable ring  40  and the reusable lid  60 / 80  that the filter  20  is held in place more so than without the use of a reusable lid  60 / 80 . 
     In the arrangement shown, as one example, the reusable lid  40  of system  10  includes a primary catch feature  54 . However, in an alternative embodiment, no catch feature is required. In this way, the system functions without the primary catch feature. In yet another alternative embodiment, the reusable lid  40  of system  10  includes only the first catch feature and the second catch feature, and no primary catch feature. In yet another alternative embodiment, reusable lid  40  of system  10  includes only a first catch feature and no primary catch feature or secondary catch feature. In yet another alternative embodiment, the reusable lid  40  of system  10  includes a second catch feature and no first catch feature or primary catch feature. In yet another alternative embodiment, reusable lid  40  of system  10  includes additional and/or alternative catch features. 
     The catch feature  54 , in the arrangement shown, engages by frictional slipping and causes a small latch and/or small ledge to engage after the pliable material of the catch is forced outward to disengage. Once the reusable lid  60 / 80  has moved past the latch extension of the catch  54 , the catch  54  reengages due to the frictional shape of the catch. The user can then press the catch to cause a pliable release when the user wishes to disengage the reusable lid  60 / 80 . Other forms of a catch  54  are hereby contemplated for use and include, but are not limited to, a button release feature, a frictional fit, a snap fit, and the like. 
     In the arrangement shown, as one example, the reusable ring  40  and the reusable lid  60 / 80  also include a plurality of secondary catch features which further aid in the frictional engagement of the reusable lid  60 / 80  with the reusable ring  40 . In the arrangement shown, as one example, the reusable ring  40  includes a first side catch feature  56  spaced in approximately equal relation to the attachment feature  52  of the reusable ring  40  and the primary catch feature  54  of the ring. Similarly, and on the opposite side of the reusable ring  40 , the reusable ring  40  includes a second side catch feature  58  which is approximately equally spaced between the primary catch feature  54  and the attachment feature  52  of the reusable ring  40 . 
     In this way, the reusable ring  40  is configured to repeatedly engage and disengage with the reusable lid  60 / 80  while securely fitting in close and tight tolerances a filter  20 . In this way, filter  20  is also prevented from moving about during the brewing process and the like. Other additional features to prevent movement during brewing and the like are further described herein. 
     In the arrangement shown, as one example, the primary catch feature is shown on the front of the reusable ring. However, the primary catch features may be along the side and are also shown along the two sides as two primary catch features. In this way, no front catch feature would need to be used. However, a plurality of catch features placed anywhere on the reusable ring are hereby contemplated for use. Furthermore, the catch features, as arranged on each side can be pressed and/or pinched by force to release the lid. This aids in ease of use and functionality. 
     Grip Feature: In the arrangement shown, as one example, the reusable ring  40  also includes a filter grip feature  59  or grip feature  59 . Grip feature  59  is formed of any suitable size, shape, and design and is configured to provide an additional frictional grip and/or pressure surface to retain the filter  20  in place when being utilized and/or engaged with the reusable ring  40 . 
     In the arrangement shown, as one example, grip feature  59  is a foam ring which extends as a circle when viewed from the top for the entire circumference of the reusable ring. In this way, as configured in the example shown, the grip feature  59  is configured to engage the lip  32  of the filter  20 . In this way, the grip feature  59 , when activated by squeezing the lip  32  of the filter  20  between the reusable lid  60 / 80  and the reusable ring  40 , the filter  20  becomes securely in place. In the arrangement shown, as one example, the grip feature  59  may be foam and/or rubber and/or another material with a slight pliability to it so as to allow for some deformation. However, the grip feature  59  may also be fairly rigid but so as to accept a force of the reusable lid and engagement of the reusable lid  60 / 80  with the reusable ring  40 . 
     In the arrangement shown, as one example, the reusable ring  40  is generally circular in shape when viewed from the top. The reusable ring  40  is generally formed in this shape to accommodate a majority of single serve brewing systems. However, other shapes are also hereby contemplated for use. Other shapes for the reusable ring  40  include, but are not limited to, circular with a single flat sidewall, square in shape, triangular in shape, oval in shape, elliptical in shape, conical in shape, bucket like in shape, disc like in shape, a combination thereof, and the like. 
     In the arrangement shown, as one example, a plurality of reusable rings  40  can be implemented. While only one reusable ring might be utilized, several reusable rings  40  can potentially be utilized in the various methods of use. For example, while one reusable ring  40  is being used in the brewing process, another reusable ring  40  may be assembled in the single serve pod assembly apparatus  100  (to be further described herein). 
     Reusable Lid 
     In the arrangement shown, as one example, and with reference also to  FIG.  15   , the system  10  includes a reusable lid  60  (which may be referred to herein as an “enclosure”, a “percolator”, a “filter grip”, a “reusable top”, or simply a “lid”). Reusable lid  60  is formed of any suitable size, shape, and design and is configured to securely enclose the top of the reusable ring  40 . Furthermore, in the arrangement shown, as one example, reusable lid  60  is configured to distribute and/or percolate water and/or liquid into the interior of the reusable ring  40  and/or filter  20 . 
     In the arrangement shown, as one example, reusable lid  60  is generally circular in shape when viewed from the top  62 . The reusable lid  60  includes a bottom  64  which may protrude into the interior of the reusable ring  40  when in the closed position and/or engaged position. The reusable lid  60  also includes a slender exterior surface  66  around the perimeter of the reusable lid  60 . Furthermore, the reusable lid includes a percolator  68  having a plurality of apertures  70  for the distribution of liquids evenly over the ingredients on the interior of the filter  20 , when engaged. Furthermore, a single aperture may be used to provide delivery of contents into the filter  20 . 
     In the arrangement shown, as one example, the reusable lid  60  also includes a bottom lip  72 . Bottom lip  72  is formed to engage the lip  32  of the filter  20  and squeeze the lip  32  of the filter  20  in between the reusable lid  60  and the lip  54  of the reusable ring  40 . In this way, and in the arrangement shown, as one example, the bottom lip  72  is sized and shaped to appear and/or accommodate the lip  32  of the filter  20  in close and tight tolerances. The cavity  30  of the filter  20  extends through the reusable ring  40 . 
     Attachment Feature: In the arrangement shown, as one example, the reusable lid  60  also includes attachment features  74 . Attachment feature  74  is formed of any suitable size, shape, and design and is configured to operably connect the reusable lid  60  to a reusable ring  40 . In the arrangement shown, as one example, the attachment feature  74  includes a hinged connection for operably connecting the reusable ring  40  to the reusable lid  60 . However, other types of operable connections are hereby contemplated for use. 
     In the arrangement shown, as one example, the reusable lid  60  also includes an interlocking extension feature  75 . Interlocking extension feature  75  is formed of any suitable size, shape, and design and is configured to interlock and/or provide additional fitting and attachment features with the reusable lid  40 . In the arrangement shown, as one example, the interlocking extension feature  75  is a small step feature with frictional fit components and/or rubber fit components which cause engagement with the reusable lid  40 . 
     Catch Feature of the Reusable Lid: In the arrangement shown, as one example, reusable lid  60  also includes a primary catch feature  76 . Primary catch feature  76  is formed of any suitable size, shape, and design and is configured to engage the primary catch feature  56  of the reusable lid  40 . In the arrangement shown, as one example, the primary catch feature  76  of the reusable lid  60  is formed of a small extension and/or arm piece which can be grabbed by the primary attachment feature  54  of the reusable ring  40 . Additionally, and said another way, the catch feature  76  and/or primary catch  76  engages with the reusable ring  40  in such a way as to squeeze the lip  32  of the filter  20  between the reusable ring  40  and the reusable lid  60  such that the filter  20  is held in place more so than without the use of a reusable lid  60 . 
     The catch feature  76 , in the arrangement shown, engages by frictional slipping and causes a small latch and/or small ledge to engage with the catch feature of the reusable ring  40  after the pliable material of the catch is forced outward to disengage. Once the primary catch feature  76  of the reusable lid  60  has moved past the latch extension of the catch  54 , the catch  76  reengages due to the frictional shape of the catch  76 , which is an extension outward from the center of the reusable lid  60 . The user can then press the catch to cause a pliable release when the user wishes to disengage the reusable lid  60 . Other forms of a catch  76  are hereby contemplated for use and include, but are not limited to, a button release feature, a frictional fit, a snap fit, and the like. 
     In the arrangement shown, as one example, the reusable lid  60  also includes a plurality of secondary catch features  77  and  78 , which further aid in the frictional engagement of the reusable lid  60  with the reusable ring  40 . In the arrangement shown, as one example, the reusable lid  60  includes a first side catch feature  77  spaced in approximately equal relation to the attachment feature  74  of the reusable lid  60  and the primary catch feature  76  of the reusable ring  60 . Similarly, and on the opposite side of the reusable lid  60 , lid  60  includes a second side catch feature  78  which is approximately equally spaced between the primary catch feature  76  and the attachment feature  74  of the reusable ring  60 . 
     Grip Feature of Alternative Embodiment: In an alternative embodiment, the reusable lid  60  may also include a grip feature. In this way, an alternative grip feature is a foam ring which extends as a circle when viewed from the top for the entire circumference of the ring. In this way, as configured in the example shown, the grip feature is configured to engage the lip  32  of the top of the filter  20 . In this way, the grip feature of the reusable lid  60 , when activated by squeezing the lip  32  of the filter  20  between the reusable lid  60  and the reusable ring  40 , the filter  20  becomes securely in place. In this alternative arrangement, as one example, the grip feature may be foam and/or rubber and/or another material with a slight pliability to it so as to allow for some deformation. However, the grip feature may also be fairly rigid but so as to accept a force of the lid and engagement of the reusable lid  60  with the reusable ring  40 . Furthermore, in this way, the grip feature is configured to easily open and/or close the reusable lid in concert with the reusable ring. 
     In the arrangement shown, as one example, the reusable lid  60  is generally circular in shape when viewed from the top. The reusable lid  60  is generally formed in this shape to accommodate a majority of single serve brewing devices. However, other shapes are also hereby contemplated for use. Other shapes for the reusable lid  60  may include, but are not limited to, circular with a single flat sidewall, square in shape, triangular in shape, oval in shape, elliptical in shape, conical in shape, bucket like in shape, disc like in shape, a combination thereof, and the like. Furthermore, in this way, the reusable lid  60  may be similar or different in shape than the reusable ring  40 . 
     In the arrangement shown, as one example, a plurality of reusable rings  40  can be implemented. However, a reusable lid  60  may not be required in an alternative embodiment. In this way, zero reusable lids  60  would be utilized in one embodiment and/or method of the present disclosure. Additionally, while only one reusable ring might be utilized, several reusable lids  60  can potentially be utilized in the various methods of use. For example, while one reusable lid  60  is being used in the brewing process, another reusable lid  60  may be assembled in the single serve pod assembly apparatus  100  (to be further described herein). 
     Alternative Reusable Lid 
     In the arrangement shown, as another example, and with reference also to  FIG.  16   , system  10  also includes an alternative reusable lid  80  (also referred to as an “enclosure”, a “percolator”, a “filter grip”, a “reusable top”, or simply a “lid”). Reusable lid  80  is formed of any suitable size, shape, and design and is configured to enclose the top of the reusable ring  40 . Furthermore, in the arrangement shown, as one example, reusable lid  80  is configured to distribute and/or percolate water and/or liquid into the interior of the reusable ring  40  and/or filter  20 . 
     In the arrangement shown, as one example, reusable lid  80  is generally circular in shape when viewed from the top  82 . The reusable lid  80  includes a bottom  84  which may protrude into the interior of the reusable ring  40  when in the closed position and/or engaged position. The reusable lid  80  also includes a slender exterior surface  86  around the perimeter of the reusable lid  80 . Furthermore, the reusable lid  80  includes a percolator  88  having a plurality of apertures  90  for the distribution of liquids evenly over the ingredients on the interior of the filter  20 , when engaged. 
     In the arrangement shown, as one example, the percolator  88  is shown having multiple apertures. However, another alternative embodiment, as is shown, includes a percolator  88  which only has a single aperture. While one aperture is contemplated for use in this embodiment, a plurality of apertures is hereby contemplated for use, in use with the percolator  88 . This includes but is not limited to, one aperture, two apertures, three apertures, four apertures, five apertures, six apertures, seven apertures, eight apertures, nine apertures, or more apertures. 
     In the arrangement shown, as one example, the reusable lid  80  also includes a bottom lip  92 . Bottom lip  92  is formed to engage the lip  32  of the filter  20  and squeeze the lip  32  of the filter  20  in between the reusable lid  80  and the lip  54  of the reusable ring  40 . In this way, and in the arrangement shown, as one example, the bottom lip  92  is sized and shaped to appear and/or accommodate the lip  32  of the filter  20  in close and tight tolerances. The cavity  30  of the filter  20  extends through the reusable ring  40 . 
     Attachment Feature: In the arrangement shown, as one example, the reusable lid  80  also includes attachment features  94 . Attachment feature  94  is formed of any suitable size, shape, and design and is configured to operably connect the reusable lid  80  to a reusable ring  40 . In the arrangement shown, as one example, the attachment feature  94  includes a hinged connection for operably connecting the ring  40  to the reusable lid  80 . However, other types of operable connections are hereby contemplated for use. 
     In the arrangement shown, as one example, lid  80  also includes an interlocking extension feature  93 . Interlocking extension feature  93  is formed of any suitable size, shape, and design and is configured to interlock and/or provide additional fitting and attachment features with the reusable lid  40 . In the arrangement shown, as one example, the interlocking extension feature  93  is a circular extension which extends downward from the reusable lid  80  and provides for additional attachment features. The extension and/or interlocking extension feature can more securely attached to the reusable lid  80  by providing small apertures for features of the reusable lid  80  to engage with, while also providing frictional fit components and/or rubber fit components which cause engagement with the reusable lid  80 . 
     Sub catch features of Alternative Reusable Lid: In the arrangement shown, as one example, the reusable lid  80  also includes additional sub-catch features  99 . Sub-catch features  99 , as shown in  FIG.  16   , are small apertures equally spaced around the perimeter of the extension feature. The sub-catch features  99  are designed to accept small extensions from the reusable lid so as to frictionally engage into the interior of the sub-catch features. In the arrangement shown, as one example, four sub-catch features are shown, however any other number of sub-catch features is hereby contemplated for use. 
     Catch Feature of the Reusable Lid: In the arrangement shown, as one example, reusable lid  80  also includes a primary catch feature  96 . Primary catch feature  96  is formed of any suitable size, shape, and design and is configured to engage the primary catch feature  56  of the reusable lid  40 . In the arrangement shown, as one example, the primary catch feature  96  of the reusable lid  80  is formed of a small extension and/or arm piece which can be grabbed by the primary attachment feature  54  of the reusable ring  40 . Additionally, and said another way, the catch feature  96  and/or primary catch  96  engages with the reusable ring  40  in such a way as to squeeze the lip  32  of the filter  20  between the reusable ring  40  and the reusable lid  80  such that the filter  20  is held in place more so than without the use of a reusable lid  80 . 
     The catch feature  96 , in the arrangement shown, engages by frictional slipping and causes a small latch and/or small ledge to engage with the catch feature of the reusable ring  40  after the pliable material of the catch is forced outward to disengage. Once the primary catch feature  96  of the reusable lid  80  has moved past the latch extension of the catch  54 , the catch  96  reengages due to the frictional shape of the catch  96 , which is an extension outward from the center of the reusable lid  80 . The user can then press the catch to cause a pliable release when the user wishes to disengage the reusable lid  80 . Other forms of a catch  96  are hereby contemplated for use and include, but are not limited to, a button release feature, a frictional fit, a snap fit, and the like. 
     In the arrangement shown, as one example, the reusable lid  80  also includes a plurality of secondary catch features  97  and  98 , which further aid in the frictional engagement of the reusable lid  80  with the reusable ring  40 . In the arrangement shown, as one example, the reusable lid  80  includes a first side catch feature  97  spaced in approximately equal relation to the attachment feature  94  of the reusable lid  80  and the primary catch feature  96  of the reusable ring  80 . Similarly, and on the opposite side of the reusable lid  80 , lid  80  includes a second side catch feature  98  which is approximately equally spaced between the primary catch feature  96  and the attachment feature  94  of the reusable ring  80 . Furthermore, in this way, the grip feature is configured to easily open and/or close the lid in concert with the reusable ring. 
     Grip Feature of Alternative Embodiment: In an alternative embodiment, the reusable lid  80  may also include a grip feature. In this way, an alternative grip feature is a foam ring which extends as a circle when viewed from the top for the entire circumference of the ring. In this way, as configured in the example shown, the grip feature is configured to engage the lip  32  of the top of the filter  20 . In this way, the grip feature of the reusable lid  80 , when activated by squeezing the lip  32  of the filter  20  between the lid  80  and the reusable ring  40 , the filter  20  becomes securely in place. In this alternative arrangement, as one example, the grip feature may be foam and/or rubber and/or another material with a slight pliability to it so as to allow for some deformation. However, the grip feature may also be fairly rigid but so as to accept a force of the lid and engagement of the reusable lid  80  with the reusable ring  40 . 
     In the arrangement shown, as one example, the reusable lid  80  is generally circular in shape when viewed from the top. The reusable lid  80  is generally formed in this shape to accommodate a majority of single serve brewing devices. However, other shapes are also hereby contemplated for use. Other shapes for the reusable lid  80  may include, but are not limited to, circular with a single flat sidewall, square in shape, triangular in shape, oval in shape, elliptical in shape, conical in shape, bucket like in shape, disc like in shape, a combination thereof, and the like. Furthermore, in this way, the reusable lid  80  may be similar or different in shape than the reusable ring  40 . 
     In the arrangement shown, as one example, a plurality of reusable rings  40  can be implemented. However, a reusable lid  80  may not be required in an alternative embodiment. In this way, zero reusable lids  80  would be utilized in one embodiment and/or method of the present disclosure. Additionally, while only one reusable ring might be utilized, several reusable lids  80  can potentially be utilized in the various methods of use. For example, while one lid  80  is being used in the brewing process, another reusable ring  80  may be assembled in the reusable pod apparatus (to be further described herein). 
     Single Serve Pod Assembly Apparatus 
     In the arrangement shown, as one example, and with reference to  FIGS.  1 - 12   , system  10  includes a single serve pod assembly apparatus  100  (which may be referred to as an “assembly apparatus” or simply an “apparatus”). Single serve pod assembly system  100  is formed of any suitable size, shape, and design and is configured to provide ease and efficient assembly of a single serve pod  200  without the need for cleaning, or the like. 
     Said another way, and in the arrangement shown, as one example, assembly apparatus  100  is designed and configured to provide various components for easily assembling and/or preparing a single serve pod  200  for brewing. In the arrangement shown, as one example, a user engages the assembly apparatus  100  by first removing a reusable ring  40  from the side hooks. Subsequently, a user will grab a single-use or multiple-use filter  20  from the filter dispenser of the assembly apparatus  100  (to be further described herein). A user then can place the filter  20  into the reusable ring  40 . Alternatively, a user will place the reusable ring  40  into the assembly station  120  (to be further described herein) of the assembly apparatus  100 . 
     Once the reusable ring  40  is placed into the assembly station  120 , a user will place a filter  20  (after removing from the filter dispenser) into the reusable ring  40 . Once the filter  20  is in place, a user will open the storage container  160  (to be further discussed herein) and use a coffee scoop to scoop coffee grounds and/or other ingredients into the hollow interior/cavity of the filter. Subsequently a user will close the reusable lid  60 / 80 . The user can then place the assembled single serve pod  200  into a single serve brewing device (not shown). Once completed, the filter and contents can simply be removed, and the reusable ring  40  replaced onto a storage hook or within the assembly station of the assembly apparatus  100 . Furthermore, and in one example, a custom coffee scoop which is formed and designed to fit along the side of and hook onto the top of system  10  is also hereby contemplated for use. In this way, the coffee scoop can be easily removed, used, and re-stored. In this way, the assembly apparatus  100  is configured to make assembly of a single serve device easy, quick, clean, efficient, environmentally friendly, and fun. 
     In the arrangement shown, as one example, with continuing reference to  FIGS.  1 - 12   , the assembly apparatus  100  includes an upper portion  110 , an assembly station  120 , a filter dispenser  130 , a lower portion  150 , a storage container  160 , and a storage container housing  180 , among other features, components, and functionality. 
     Furthermore, and in the arrangement shown, as one example, the assembly apparatus  100  extends from a top  102  to a bottom  103  between opposing sides  104 . The assembly apparatus  100 , in the arrangement shown, as one example, also extends a length from a front  105  to a back  106  or rear  106 . In the arrangement shown, as one example, the assembly apparatus  100  has an exterior surface  107  and an interior surface  108 , as well as a hollow interior  109 . The hollow interior  109  of the assembly apparatus  100  is configured to house and hold various components (as is further described herein). 
     In the arrangement shown, as one example, the assembly apparatus  100  is formed of a polymer such as a plastic, an enhanced polymer, thermoplastics, an elastomer, polyvinyl chloride, a polyethylene, a synthetic, or the like. Other materials also include wood, metal, metal alloys, carbon fiber, glass, fiberglass, stainless steel, rubbers, silicone, aluminum, a combination thereof, and the like. 
     Upper Portion of Assembly Apparatus 
     In the arrangement shown, as one example, the assembly apparatus  100  includes an upper portion  110 . Upper portion  110  is formed of any suitable size, shape, and design, and is configured as the top portion of the assembly apparatus  100 . In the arrangement shown, as one example, the upper portion is generally rectangular in shape when viewed from the top and extends a length from a front  111  to a back  112  between opposing sides  113 . 
     In the arrangement shown, as one example, the upper portion includes the assembly station (to be further discussed herein) and is the primary location where assembly of the single serve pod can take place. In the arrangement shown, as one example, the upper portion includes a sloping top design followed by a curve and flattened upper surface to house the assembly station. In this way, the upper portion may include an angled surface  114  and a flat surface  115 . 
     In the arrangement shown, as one example, the upper portion  110  is formed of a polymer such as a plastic, an enhanced polymer, thermoplastics, an elastomer, polyvinyl chloride, a polyethylene, a synthetic, or the like. Other materials also include wood, metal, metal alloys, carbon fiber, glass, fiberglass, stainless steel, rubbers, silicone, aluminum, a combination thereof, and the like. 
     Assembly Station of Assembly Apparatus 
     In the arrangement shown, as one example, the assembly apparatus  100  includes an upper portion  110  which houses an assembly station  120 . Assembly station  120  is formed of any suitable size, shape, and design and is configured to provide an easy holding area for the single serve pod  200  during assembly of the single serve pod  200 . In order to achieve this the assembly station  120  consists primarily of a cavity or assembly cavity  121  in the flat surface  115  of the upper portion  110  of the assembly apparatus  100 . 
     In the arrangement shown, as one example, in addition to the assembly cavity  121  which is sized and configured to hold steadily the reusable ring  40 , a filter  20 , the assembly station also includes access features for ease of placing and lifting the various components of the single serve pod. Also known as finger grip apertures  122 , these features appear as cavity shapes in the flat surface  115  of the upper portion  110  of the assembly apparatus  100 . The finger grip apertures  122  are on each side, and adjacent to the assembly cavity so as to allow a user to easily remove and/or place components into the assembly cavity  121 . 
     In one arrangement, and as shown in the example, assembly cavity  121  is formed and configured to hold and/or position the lid in an optimal position for ease of assembly. In this way, and in one example, the assembly cavity  121  is configured to hold the lid in an approximate obtuse angled position for ease of assembly. Other angles are also hereby contemplated for use. 
     Filter Dispenser of Assembly Apparatus 
     In the arrangement shown, as one example, the assembly apparatus  100  includes a filter dispenser  130 . Filter dispenser  130  is formed of any suitable size, shape, and design and is configured to provide quick and easy dispensing of the filter  20  disclosed herein. Furthermore, the filter dispenser  130  is configured to house and hold a plurality of filters  20 , so as to dispense one after another. 
     In the arrangement shown, as one example, the filter dispenser  130  extends from the front  131 , where the plurality of filters  20  are dispensed, to a rear  132 , where the plurality of filters  20  can be loaded and/or filled and/or refilled into the hollow tube  133  - which extends in between the front  131  and the rear  132 . The rear  132  also includes a refill door  134  which provides access to the hollow interior of the hollow tube  133 , so the filters can be filled and/or refilled within. Additionally, and in the arrangement shown, the filter dispenser  130  includes a dispenser  136  at the front  131 , a plurality of dispenser catches  138  and a grab aperture  140  which all are configured to hold a plurality of filters  20  and dispense the filters  20  with ease. 
     In the arrangement shown, as one example, the filter dispenser  130  includes a refill door  134 . Refill door  134  is formed of any suitable size, shape, and design and is configured to provide access to the hollow tube  133  of the filter dispenser  130 . In this way, the hollow tube  133  of the filter dispenser  130  can be refilled and or filled with a plurality of features. In an alternative embodiment, filter dispenser  130  does not include a refill door  134 . In this alternative embodiment, the plurality of filters  20  are refilled and/or filled from the front  131  of the filter dispenser  130 . In this way, and in this alternative embodiment, the filter dispenser may include a spring or other features which cause the plurality of filters to move forward. In the arrangement shown, the filters are additionally caused to move forward by gravity and a downward slope of the hollow tube  133  of the filter dispenser  130 . 
     Furthermore, and in another alternative embodiment, the refill dispenser does not include a refill door  134  on the rear  132  of the filter dispenser  130 . However, alternative means of access and refill and/or fill of the hollow tube  133  of the filter dispenser  130  are hereby contemplated for use. Alternative means of refilling the filter dispenser  130  and/or filling the filter dispenser  130  may include, but are not limited to, causing the filter dispenser  130  to be filled from the front, rear openings, side openings, top openings, an upward opening upper portion, a combination thereof, or the like. 
     Lower Portion of Assembly Apparatus 
     In the arrangement shown, as one example, the assembly apparatus  100  includes a lower portion  150 . Lower portion  150  is formed of any suitable size, shape, and design, and is configured as the bottom portion of the assembly apparatus  100 . In the arrangement shown, as one example, the lower portion is generally rectangular in shape when viewed from the bottom and extends a length from a front  152  to a back  154  between opposing sides  156 . 
     In the arrangement shown, as one example, the lower portion  150  includes the storage container (to be further discussed herein) and is the primary location where storage of coffee beans, coffee grounds, other brewing ingredients, a combination thereof, or the like, can take place. In the arrangement shown, as one example, the lower portion  150  includes a tapering side design. In this way, the lower portion  150  may include a curved surface  158 . Furthermore, the lower portion  150 , at the bottom of the lower portion  150 , may also include a plurality of feet  159  which serve for leveling, force absorption, anti-scratch, and other functionality. 
     Furthermore, and in the arrangement shown, as one example, the plurality of feet  159  may be formed of small pegs made of rubber and/or silicone with adhesive properties. In this way, the plurality of feet  159  are formed and configured to stabilize and/or maintain the location of system  10  while also reducing vibration and/or other forces applied to system  10  when in operation. 
     Furthermore, in the arrangement shown, as one example, a plurality of feet are shown. The plurality of feet are formed of a rubber and/or silicone. In the arrangement shown, the plurality of feet are attached to the lower portion  150  by an adhesive and form four feet. However, other materials for the composition of the feet such as plastic and the like are hereby contemplated for use. Additionally, while four feet are shown, any other number of feet are hereby contemplated for use. Additionally, while an adhesive is used for attachment, other forms of attachment are hereby contemplated for use including, but not limited to, fasteners, rivets, friction fit, and the like. 
     Furthermore, and in the arrangement shown, as one example, the bottom of the plurality of feet and/or a plurality of pegs for gripping are configured with an adhesive and/or gripping property. In this way, the plurality of feet and the configuration of the plurality of feet are formed and suitable to maintain the position of the system  10  on the countertop or other surface so that the system  10  does not move when in use. 
     In the arrangement shown, as one example, the lower portion  150  is formed of a polymer such as a plastic, an enhanced polymer, thermoplastics, an elastomer, polyvinyl chloride, a polyethylene, a synthetic, or the like. Other materials also include wood, metal, metal alloys, carbon fiber, glass, fiberglass, stainless steel, rubbers, silicone, aluminum, a combination thereof, and the like. 
     Storage Container of Assembly Apparatus 
     In the arrangement shown, as one example, assembly apparatus  100  also includes a storage container  160  (also referred to as a “storage compartment”, “compartment”, or simply “container”). Storage compartment  160  is formed of any suitable size, shape and design and is configured to provide storage for coffee beans, coffee grounds, other brewing ingredients, a combination thereof, or the like. Furthermore, and in one arrangement as is hereby contemplated for use, the storage compartment is configured to provide an airtight seal and airtight storage for coffee beans, coffee grounds, and other brewing ingredients, a combination thereof, or the like. Furthermore, and in one arrangement as is hereby contemplated for use, the storage compartment is configured to provide a near airtight seal and near airtight storage for coffee beans, coffee grounds, and other brewing ingredients, a combination thereof, or the like. 
     In the arrangement shown, as one example, the storage container  160  extends a length from a front  162  - having a handle  172  at the front - to a back  164  between opposing sides  166 . The storage container, in the arrangement shown, as one example, has a single hollow interior  168 . However, multiple different hollow interiors are hereby contemplated for use and the container  160  may have a plurality of compartments, each compartment having a unique airtight seal. Furthermore, in the arrangement shown, the storage container has an exterior surface  170  and a closing feature  174 . 
     In the arrangement shown, as one example, the storage container  160  is housed within the lower portion  150  within the storage container housing  180  that provides unique opening and closing features as well as ease of cleaning functionality and the like. 
     Storage Container Housing of Assembly Apparatus: In the arrangement shown, as one example, the storage container  160  is enclosed within a storage container housing  180 . The storage container housing  180  is formed of any suitable size, shape, and design, and is configured to provide functionality and ease of cleaning for the lower portion  150  and the storage container  160 . 
     In the arrangement shown, as one example, the storage container housing extends a length from a front  182  to a back  184  between opposing sides  186 . In the arrangement shown, as one example, the storage container housing includes a top  188  a bottom  190  and a catch feature  192 , among other components, features, and functionality. 
     Other Features/Alternative Embodiments 
     In the arrangement shown, as one example, system  10  includes various features. Other features, in an alternative embodiment may include, but are not limited to a single serve brewer, an onboard computing device, various electrical components such as receivers and transceivers, power supplies, and the like, a grinder, an automated assembler with pre-determine rules for dispensing certain amounts, features for adjusting amounts ground and fineness and/or coarseness of grounds, ring storage, coffee bean storage, coffee grind storage, ground hopper storage, scooper storage, power supplies, a graphical user interface, a touch screen, and a mobile application, among other components, features, and functionality. 
     In addition to the above identified features, options, controls, and components, system  10  may also include other features and functionalities, among other options, controls, and components. 
     In Operation 
     In one example, as one method of use, assembly apparatus  100  is designed and configured to provide various components for easily assembling and/or preparing a single serve pod for brewing. In the arrangement shown, as one example, a user engages the assembly apparatus  100  by first removing a reusable ring  40  from the side hooks. Subsequently, a user will grab a single-use or multiple-use filter  20  from the filter dispenser of the assembly apparatus (to be further described herein). A user then can place the filter  20  into the reusable ring  40 . Alternatively, a user will place the reusable ring  40  into the assembly station  120  (to be further described herein) of the assembly apparatus  100 . 
     Once the reusable ring  40  is placed into the assembly station, a user will place a filter  20  (after removing from the filter dispenser) into the reusable ring  40 . Once the filter  20  is in place, a user will open the storage container  160  (to be further discussed herein) and use a coffee scoop to scoop coffee grounds and/or other ingredients into the hollow interior of the filter. Subsequently a user will close the reusable lid  60 / 80 . The user can then place the assembled single serve pod  200  into a single serve brewing device (not shown). Once completed, the filter and contents can simply be removed, and the ring  40  replaced onto a storage hook or within the assembly station of the assembly apparatus  100 . In this way, the assembly apparatus  100  is configured to make assembly of a single serve device easy, quick, clean, efficient, environmentally friendly, and fun. 
     Furthermore, in the arrangement shown, and method of use described, a user can effectively, quickly, and efficiently, dispose of the used coffee grounds and/or used filter and contents. The bottomless ring provides for easy disposal of the used filter and contents. This allows for quick disposal and/or minimal rinsing/cleaning prior to reusing the reusable ring with a new filter and contents for the brewing of another single serve and/or brewing of another single serve coffee. In this way, waste and/or used filters can be easily removed or fall out when released to a bin or the like. The unique design of system  10  provides for this quick disposal and/or clean up in the operation. 
     It will be appreciated by those skilled in the art that other various modifications could be made to the systems, apparatuses, processes, and methods of use without departing from the spirit and scope of this disclosure. For example, variations of a reusable pod apparatus are shown in  FIGS.  19 - 26    and a variation of a single serve pod system is shown in  FIGS.  27 - 30   . All such and other modifications and changes fall within the scope of the present disclosure and are intended to be covered thereby. 
       FIG.  19    is a diagram of another example of a reusable pod apparatus. The illustrated reusable pod apparatus  300  includes a reusable ring  340  and a reusable lid  360 . The reusable ring  340  and the reusable lid  360  are coupled together by a catch features and an attachment features, which will be described in connection with  FIG.  20   . In  FIG.  19   , the reusable lid  360  is coupled with the reusable ring  340  in an open position. The reusable ring  340  is open and bottomless. In the open position, a filter (e.g.,  20 ) may be placed into the opening of the reusable ring  340  and be supported by the reusable ring  340 , while the cavity of the filter extends through the reusable ring  340 . The reusable ring  340  and the reusable lid  360 , and their respective components, may be sized, shaped, and otherwise configured to fit into the pod receptacle of various single serve brewing systems. 
       FIG.  20    is a diagram of components of the reusable pod apparatus of  FIG.  19    in a disassembled state. The reusable ring  340  includes a catch feature  354  and an attachment feature  352 . The catch feature  354  and the attachment feature  352  may have aspects of the catch feature  54  and the attachment feature  352 , respectively, described above. All description relating to catch feature  54  and attachment feature  52  apply to the catch feature  354  and the attachment feature  352 , respectively, as well. The reusable lid  360  includes a catch feature  376  and an attachment feature  374 . The catch feature  376  and the attachment feature  374  may have aspects of the catch feature  76  and the attachment feature  74 , respectively, described above. All description relating to catch feature  76  and attachment feature  74  apply to the catch feature  376  and the attachment feature  374 , respectively, as well. A pin  362  secures the attachment feature  352  of the reusable ring  340  with the attachment feature  374  of the reusable lid  360 . Engagement of the catch feature  354  of the reusable ring  340  with the catch feature  376  of the reusable lid  360  will be described in connection with  FIG.  23   . The reusable ring  340  may include an optional heat-resistant ring  390  that may be made from a heat-resistant material, such as silicone, among other materials. When the heat-resistant ring  390  is used, it shields the user’s fingers from feeling heat to some degree when holding the reusable ring  340  after a brew. 
       FIG.  21    is a top perspective view of the reusable ring  340  in the reusable pod apparatus of  FIG.  19   . The reusable ring  340  includes a ring body  342  and a rim  344 . The rim  344  is sized and shaped to support a filter, and the filter cavity extends through the ring body  342 . The catch feature  354  extends from the rim  344 , and an end portion of the catch feature  354  extends in the same direction as the ring body  342 . The catch feature  354  includes a slot  355  that operates to receive a tab of the catch feature  376  of the reusable lid  360  and to secure the reusable lid  360  to the reusable ring  340 . 
       FIG.  22    shows a bottom perspective view of the reusable ring. As illustrated in  FIG.  22   , the attachment feature  352  is positioned below the plane of the rim  344  when the reusable ring  340  is in the upright position. 
       FIG.  23    shows a cross-sectional view of the reusable pod apparatus of  FIG.  19    in a closed position. As mentioned above, the reusable ring  340  is bottomless. The reusable lid  360  includes a percolator  368  having a plurality of apertures for distributing liquids over the ingredients in the interior of a filter. The percolator  368  may have aspects of the percolator  68  described above, and any description relating to the percolator  68  applies to the percolator  368 , as well. In the illustrated embodiment, the percolator  368  extends into the interior of the ring body  342  and is approximately 90% the height of the ring body  342 . In various embodiments, the percolator  368  and its aperture(s) may have other sizes, shapes, and configurations. When the reusable pod apparatus is in the closed position, there is a sealing effect so no water leaks between the reusable lid  360  and the reusable ring  340  during brewing. This sealing effect can be achieve, as mentioned above, by the engagement of a tab  378  of the catch feature of the reusable lid  360  with the slot  355  of the catch feature of the reusable ring  340 . 
       FIG.  24    is a top perspective view of the reusable pod apparatus of  FIG.  19    with the lid closed. The embodiment of  FIG.  24    includes one aperture  362  in the reusable lid  360 . The illustrated one-aperture embodiment is compatible with a majority of single serve brewing machines available to consumers. 
       FIG.  25    is a bottom perspective of the reusable pod apparatus of  FIG.  24   . The attachment features  352 ,  376  are positioned below the plane of the rim  344  when the reusable ring  340  is in the upright position. This configuration of the attachment features  352 ,  376  is compatible with the pod receptacles of a majority of single serve brewing machines available to consumers. 
       FIG.  26    is a diagram of an example of a reusable pod apparatus having a reusable lid with five apertures. The illustrated “five-hole” embodiment of the reusable pod apparatus is compatible with certain newer single serve brewing systems that direct multiple streams of hot water into the pod. 
       FIG.  27    is a diagram of another example of a single serve pod system. The illustrated single serve pod system  400  includes a built in grinder (not shown), which may be a coffee bean grinder. The grinder is beneath a hopper  418  that may contain coffee beans. The grinder operates to grind whole coffee beans into fresh coffee grounds and operates to dispense an appropriate amount of fresh coffee grounds into a reusable pod apparatus. The user may grab a filter  408  located at a filter drawer  409 , which holds and dispenses filters from a stack of filters. Then, the user opens the pod drawer  407 . The user assembles a single serve pod using the filter  408  and the reusable pod apparatus  241  and then loads the assembled single serve pod (not shown) into the pod drawing  407 . The grinder includes a selector  430  that rotates to choose between light, medium, or strong to indicate how strong the user would like the coffee. When the user presses the “Go” button  417 , the grinder grinds coffee beans from the hopper  418  to provide an appropriate amount of fresh coffee grounds and dispenses the fresh coffee founds into the assembled single serve pod in the pod drawer  407 . This operation will be described in more detail in connection with  FIG.  28   . 
       FIG.  28    is a cross-sectional view of the single serve pod system of  FIG.  27   . As shown in  FIG.  28   , the single serve pod system includes a housing  401 , a ground coffee chute  402 , a secondary printed circuit board  405 , a primary printed circuit board  406 , a pod drawer  407 , a filter  408 , a filter drawer  409 , a filter stack  410 , a grinder motor  411 , a “Go” start button  417 , a hopper  418 , a lid closing flap  419 , and a reusable pod apparatus  241 . The pod drawer  407  holds the lid of the reusable pod apparatus  241  open in a reflex angle position, which allows the filter in the pod drawer  407  to receive ground coffee from the ground coffee chute  402 . The mechanism beneath the hopper  418  is indicated by a circle  440 . In the circle  440  is a burr coffee grinder. An adjuster for strength selection tightens and loosens the burrs to make the coffee grounds finer or coarser for weaker or stronger flavor, respectively. The adjuster can be adjusted progressively tighter and looser to make incremental changes to cover a spectrum between light and strong coffee. The ground coffee exits the burrs and leads to the ground coffee chute  402 . The user may then open the pod drawer  407 , which simultaneously closes the lid of the reusable pod apparatus  241  and exposes the single serve pod ready for a user to use in a single serve brewer. Pulling the pod drawer  407  causes the lid of the reusable pod apparatus  240  to contact with the closing flap  419 , thereby causing the lid to fall closed. The user may check that the lid is snapped securely closed before brew. In various embodiments, the hopper  418  may be modular and replaceable, allowing users to frequently change the coffee beans and giving them more variety and choice. 
       FIG.  29    is a diagram of the pod drawer  407  of the single serve pod system of  FIG.  27   .  FIG.  29    illustrates the pod drawer  407  with the reusable pod apparatus  241 . When in the illustrated position, placing a filter inside the reusable pod apparatus  241  is very easy. The lid of the reusable pod apparatus  241  is in an open position with filter loaded. After reusable pod apparatus and filter are loaded into the pod drawer  407 , a user may push the pod drawer  407  inside the housing ( 401 ,  FIG.  28   ), which places the filter opening underneath the ground coffee chute ( 402 ,  FIG.  28   ). 
       FIG.  30    is a diagram of the filter drawer  409  of the single serve pod system of  FIG.  27   . The filter drawer  409  is configured to hold a stack of filters ( 410 ,  FIG.  28   ). A spring mechanism (not shown) may push the stack of filters toward the opening  450  as filters are taken by the user. 
     The embodiment of  FIGS.  27 - 30    allows coffee drinkers to convert coffee beans into ground coffee for single serve pods, which gives users significantly more variety to choose from. Increased variety and options for coffee selection are tremendously increased, and users are not limited to preset coffee selections from single use pods. Freshly ground coffee from whole beans is also fresher and more cost effective for users. The grinder may freshly grind the appropriate amount of coffee needed for a single serve pod right before brewing, resulting in fresh coffee that has more flavor and aromatic properties. In various embodiments, a variation of the illustrated system does not have a grinder and, instead, has a dispenser for dispensing pre-ground coffee into a single serve pod. The dispenser may be mostly airtight to keep coffee grounds as fresh as possible. 
     The embodiments disclosed herein are examples of the disclosure and may be embodied in various forms. For instance, although certain embodiments herein are described as separate embodiments, each of the embodiments herein may be combined with one or more of the other embodiments herein. Specific structural and functional details disclosed herein are not to be interpreted as limiting, but as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present disclosure in virtually any appropriately detailed structure. Like reference numerals may refer to similar or identical elements throughout the description of the figures. 
     The phrases “in an embodiment,” “in embodiments,” “in various embodiments,” “in some embodiments,” or “in other embodiments” may each refer to one or more of the same or different embodiments in accordance with the present disclosure. A phrase in the form “A or B” means “(A), (B), or (A and B).” A phrase in the form “at least one of A, B, or C” means “(A); (B); (C); (A and B); (A and C); (B and C); or (A, B, and C).” 
     It should be understood that the foregoing description is only illustrative of the present disclosure. Various alternatives and modifications can be devised by those skilled in the art without departing from the disclosure. Accordingly, the present disclosure is intended to embrace all such alternatives, modifications and variances. The embodiments described with reference to the attached drawing figures are presented only to demonstrate certain examples of the disclosure. Other elements, steps, methods, and techniques that are insubstantially different from those described above and/or in the appended claims are also intended to be within the scope of the disclosure.