Patent Document

CROSS-REFERENCE TO RELATED APPLICATION 
     This application is based upon and claims priority from prior U.S. patent application Ser. No. 29/415,032, filed on Mar. 6, 2012, the disclosure of which is herein incorporated by reference in its entirety. 
     FIELD OF THE INVENTION 
     The present disclosure generally relates to wipe dispensers, and more particularly to a refillable wipe dispenser that provides a liquid tight seal and that facilitates use of the wipe dispenser by an individual lacking manual dexterity. 
     BACKGROUND 
     Current wipe dispensers plague the consumer with various inconveniences such as: drying of the paper towel, lack of continuous feeding of paper towel, the inability of dispenser reuse, the restriction of use with regard to towel types, and the inability of single-handed use. In this patent application, the paper material used in wipe dispensers shall henceforth be referred to as “media”. Originally, wipe dispensers were made to be used once and subsequently discarded. These dispensers commonly used for wiping are designated for either wet or dry use, but not for both wet and dry use. They do not offer the consumer flexibility to create a wet wipe using common household ingredients. Common wipe dispensers do not offer the consumer the option of creating a dry wipe for cleaning purposes. These dispensers also restrict the consumer from using common paper towels for wiping. They typically contain a specifically manufactured towel that fits only into the given dispenser. Wet media containers use media that, over a period of time, will dry and become unusable. Current wipe dispensers often prevent the consumer from using the media in its entirety due to lack of consistent dispensing. Many commonly used dispensers require the use of two hands in order to operate the dispenser. These inconveniences, coupled with the disposable design of common wipe dispensers, necessitate the costly and wasteful purchase of numerous wipe dispensers. 
     Common wipe dispensers employ a folded, interleaved sheet thus attempting facilitation of pop-up style media feeding. This pop-up style of media which is referenced in patent designator F, S and O has proven to be a flawed method of feeding media. The quality, variability, high production cost and incorrect feeding of the interleaved sheets are problems cited in U.S. Pat. No. 6,460,727 to Irwin, 2002 October. Various attempts have been made to overcome the difficulty that arises when feeding paper media through a dispenser. Over feeding, sheet sticking and tearing are problems that have not been corrected in prior art embodiments. 
     A limitation is evident when considering U.S. Pat. No. 5,810,200 to Trokhan, 1998 September. Trokhan proposes to correct media feeding with a feature whereby the operator must pull the sheets at a specific angle. This necessitates having the sheets dispensed at only one particular orientation. Examination of U.S. Pat. No. 5,810,200 to Trokhan, 1998 September, reveals only a limited angle of wipe dispensing. Over feeding of media is a common problem with the U.S. Pat. No. 5,810,200 (1998) to Trokhan implementation as attempts are made to engage the feature that should enable sheet separation. 
     Another solution, proposed in U.S. Pat. No. 5,390,820, to Wright et al. (1995) evidences feeding problems occurring in interleaved wipes. Wright attempts to solve the initial feed problems caused by tight packaging. These difficulties include tearing, loss of pop-up feeding, and media distention back into the container. 
     The wet wipe rigid containers (prior art cited with patent type designators W and R) have a limitation whereby the amount of media available for wiping must not exceed the length of the sheet contained therein. The sheet length enables the interleaved wipe to reach the top of the container. Such a design causes sheet separation inside the container. The U.S. Pat. No. 6,460,727 to Irwin, October 2002, attempts to address this functional difficulty by keeping the media at a constant elevation. This Irwin patent fails in its attempts to avoid over-pressing the media, inducing tearing of the media, and limiting the media cache. 
     Nearly all pop-up containers require a friction lid feed opening to separate the wipes and hold the subsequent wipe. The U.S. Pat. No. 6,158,614 to Haines et al. (2002) is a typical example of high friction dispensers. High separation force is needed to enable media feeding in these dispenser implementations. Such containers have drawbacks including inconsistency in media manufacture, and an inability to provide continuous feeding of media. Bothersome premature separation occurs while causing loss of media feeding. 
     This limitation does not allow the user to pull multiple wipes, which remain joined to form a larger wipe. 
     Currently most wipe containers require the use of two hands. These embodiments are indicated by patent designator 2H. An additional encumbrance to individuals lacking manual dexterity is that most wipe dispensers become very light weight as the media is consumed. This results in a loss of upright stability. Disposable containers (patent designator S) and disposable reusable rigid (patent designator R) containers, all lack sufficient mass needed to maintain stability. The force needed to separate and dispense a wipe exceeds the stability of the container. Single-handed operation, as noted in patent designator 1H, becomes almost impossible as the inventory of wipes decreases within the container. 
     A consistent problem noted in current wipe containers is drying of media. Media drying is caused by at least two endemic design flaws. One such flaw is the lack of a liquid tight seal as in U.S. Pat. No. 4,156,493 to Julius, 1979 May. Another such flaw is a liquid tight cap that will open upon being subjected to heat. This subsequent opening causes the internal media to become dry. A conical lid opening of U.S. Pat. No. 5,560,514 (1996) to Frazier, causes media drying due to high friction squeezing of the media. 
     Most wipe containers heretofore known suffer from a myriad of disadvantages including but not limited to the following: 
     (a) The use of specifically designed media restricts the ability of the media to be composted after use. 
     (b) Wipe containers currently lack ruggedness. 
     (c) Current designs restrict the use of a commonly available media. 
     (d) The wipe containers in present use are not designed to be used by an individual lacking manual dexterity. 
     (e) Present wipe containers having high-friction, conical lid feed openings, may cause a user to be injured while trying to retrieve, or start feeding the wipe media. 
     (f) The inability to use a homemade formula for wipe saturation, within most wipe containers, poses a hindrance to individuals with medical sensitivities. 
     (g) Dispensers currently available are typically restricted to use with only the media contained therein and therefore cannot be refilled. 
     (h) Viewing of available media and measuring of fluid for wipe saturation are both features which are lacking in current embodiments. 
     SUMMARY OF THE INVENTION 
     In accordance with one embodiment a wipe dispenser container comprises several aspects including but not limited to a cylindrical bucket, a lid, and a handle. 
     There are several advantageous aspects. The dispenser facilitates a nearly infinite variety of both wet and dry wipes. The media used in the dispenser may be selected from a wide variety of commercial products. Individuals lacking manual dexterity have a solution for wiping needs. The dispenser can be used without concern that the media will dry and become unusable. One advantageous aspect is the durability of the wipe container in a variety of environments. An additional advantageous aspect is the saturation of the wipe with solutions efficacious for various individuals with special needs. Another advantageous aspect allows the use of the wipe container with only one hand. Consequently, the aforesaid advantageous aspects of the container provide numerous cost effective applications in a wide variety of environments. These and other advantages will become apparent when the descriptive drawings and accompanying specification are considered. 
     According to one embodiment, portable wet or dry media dispenser for wipes comprises: a bucket to contain the media, and saturating solution if used wet; a lid for the bucket, the lid having an opening for dispensing wipes through the lid opening, the lid additionally forms a liquid tight seal to the bucket; and a rotatable handle cap for the lid that is rotated to cover the opening in the lid, in a closed position, and the handle cap is rotated to uncover the opening, in an open position, the rotatable handle cap is mechanically coupled with a carry-handle, the carry-handle for carrying the dispenser by the carry-handle in the closed position of the handle cap, and where the dispenser through the opening presents pop-up continuous feed wipes to a user of the dispenser as the user selects and pulls one or more media wipes from the inside of the bucket through the opening, the one or more media wipes provided in solution as saturated wet wipes form or as dry wipes form. 
     According to another embodiment, a portable media dispenser for wet wipes comprises: a bucket to contain the media and saturating wet solution; a lid for the bucket, the lid having an opening for dispensing wet wipes through the lid opening, the lid additionally forms a liquid tight seal to the bucket; and a rotatable handle cap for the lid that is rotated to cover the opening in the lid, in a closed position, and the handle cap is rotated to uncover the opening, in an open position, the rotatable handle cap is integrally formed with a handle in a single rotatable unit, and where the dispenser through the opening presents wipes to a user of the dispenser as the user selects and pulls one or more media wipes from the inside of the bucket through the opening, the one or more media wipes provided in solution as saturated wet wipes form. 
     According to another embodiment, portable media dispenser for dry wipes comprises: a bucket to contain the wipe media; a lid for the bucket, the lid having an opening for dispensing wipes through the lid opening, the lid additionally forms a liquid tight seal to the bucket; and a rotatable handle cap for the lid that is rotated to cover the opening in the lid, in a closed position, and the handle cap is rotated to uncover the opening, in an open position, the rotatable handle cap is integrally formed with a handle in a single rotatable unit, and where the dispenser through the opening presents wipes to a user of the dispenser as the user selects and pulls one or more media wipes from the inside of the bucket through the opening, the one or more media wipes provided in dry wipes form. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The accompanying figures in which like reference numerals refer to identical or functionally similar elements throughout the separate views, and which together with the detailed description below are incorporated in and form part of the specification, serve to further illustrate various embodiments and to explain various principles and advantages all in accordance with the present disclosure, in which: 
         FIG. 1  is a perspective view of an example of a fully assembled dispenser and container. 
         FIG. 2  is a front view thereof. 
         FIG. 3  is a right side view thereof. 
         FIG. 4  is a rear side view thereof. 
         FIG. 5  is a right side view thereof. 
         FIG. 6  is a top view thereof. 
         FIG. 7  is a view of the example dispenser container including a lid, bucket, handle and cap, and showing an example wipe media that can be loaded in the dispenser container, according to the present disclosure. 
         FIG. 8  is a side view of the handle and cap used in the dispenser container, according to the example. 
         FIG. 9  is a top view of the lid, according to the example. 
         FIG. 10  is a view of the underside of the lid, according to the example. 
         FIG. 11  is a view of the example dispenser container being opened in a one handed operation. 
         FIG. 12  is a view of the example dispenser container being closed in a one handed operation. 
         FIG. 13  is a view of the example dispenser container with wipe media being threaded through the lid, according to the present disclosure. 
     
    
    
     DETAILED DESCRIPTION 
     As required, detailed embodiments are disclosed herein; however, it is to be understood that the disclosed embodiments are merely examples and that the devices, systems and methods described herein can be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one of ordinary skill in the art to variously employ the disclosed subject matter in virtually any appropriately detailed structure and function. Further, the terms and phrases used herein are not intended to be limiting, but rather, to provide an understandable description. Additionally, unless otherwise specifically expressed or clearly understood from the context of use, a term as used herein describes the singular or the plural of that term. 
     The terms “a” or “an”, as used herein, are defined as one or more than one. The term “plurality”, as used herein, is defined as two or more than two. The term “another”, as used herein, is defined as at least a second or more. The terms “including” and “having,” as used herein, are defined as comprising (i.e., open language). The term “coupled,” as used herein, is defined as “connected,” although not necessarily directly, and not necessarily mechanically. “Communicatively coupled” refers to coupling of components such that these components are able to communicate with one another through, for example, mechanical, wired, wireless or other communications media. The term “configured to” describes mechanical structure, hardware, software, or a combination of hardware and software, that is adapted to, set up, arranged, commanded, altered, modified, built, composed, constructed, designed, or that has any combination of these characteristics to carry out a given function. The term “adapted to” describes mechanical structure, hardware, software or a combination of hardware and software, that is capable of, able to accommodate, to make, or that is suitable to carry out a given function. 
     Referring to the figures, an example of a wipe dispenser container  100  is shown according to the present disclosure. 
     The dispenser  100 , according to the example, is composed of three components: carry-handle  106 , lid  108 , and bucket  104 .  FIG. 1 , for example, shows a perspective view of the three components, i.e., the carry-handle, lid, and bucket. 
     The carry-handle  106  forms an opening  202  that facilitates (e.g., the fingers  1104  of) a user of the dispenser container  100  holding (e.g., grasping) the carry-handle  106  to carry the container  100  while the carry-handle  106  is locked in a closed position, as will be discussed below. The carry-handle  106  is mechanically coupled to a handle cap  108  as shown in the various figures. A lid feed opening  904  in the lid  102  can be selectively covered or uncovered by the handle cap  108  to close or open the lid feed opening  904 , as will be discussed below. 
     The handle cap  108  and carry-handle  106 , according to various embodiments, are integrally combined into a single rotatable unit. The carry-handle  106  rotatably attaches to the bucket  104  by a pair of arms  109  each having a handle pivot eye  110  for attaching to a respective handle post  112  on the side of the bucket  104 . Each handle pivot eye  110  is pressed onto and surrounding the handle post snap attachment head  112  and resting against a slightly larger diameter shoulder  204  of the handle post. See  FIG. 2 . The handle post snap attachment heads  112 , located on each side of the bucket  104 , are tapered to allow the handle pivot eye  110  of each handle arm  109  to be pressed onto the bucket  104 . Light deformation of the handle post snap attachment head  112  facilitates compression onto the handle pivot eyes  110  and a firm snap to the bucket  104 . Once pressed onto the handle snap attachment post  112 , the carry-handle  106  freely rotates over the handle snap attachment post head  112 . The carry-handle  106  is mechanically coupled to a handle cover  108  that serves as the cover for the lid feed opening  904  of the lid  102 . In the present example, the handle cap  108  and the carry-handle  106  are integrally combined into a single rotatable unit, as shown in  FIG. 8 . In various embodiments, the handle cap  108  can be a separate part from the carry-handle  106 . The handle cap  108  includes a plurality of reinforcement ribs, as shown in  FIG. 6 . The lid feed opening  904  is covered by the handle cap  108  when the carry-handle  106  is rotated  114  to the closed position as shown in  FIG. 1 . 
     The handle cap  108 , according to various embodiments, is maintained in the closed position covering the lid feed opening  904  under tension via pressure exerted by the pair of arms  109  each having a handle pivot eye  110  attached to a handle post  112  in the bucket  104  that pulls down the arm  109  toward the handle post  112 . In this way, a non-liquid tight seal is made by the handle cap  108  to the lid  102  while covering the lid feed opening  904 , so that gas can escape from the lid feed opening  904  to vent gas pressure from inside the bucket  104  while preserving a liquid tight seal between the lid  102  and the bucket  104 . The liquid tight seal between the lid  102  and the bucket  104  prevents gas pressure from forcing liquid through the liquid tight seal. 
     The lid  102  has a lid handle open feature  119  and lid handle close feature  117  to provide reference features and leverage points for a user&#39;s hand  1102  to locate on the lid  102  (such as for locating the thumb  1106  or the butt of the palm of the hand  1102 ) for opening  1108  (see  FIG. 11 ) and closing (see  FIG. 12 ) the container  100 . The other fingers  1104  grasp the carry-handle  106  such as via the opening  202 . The lid  102  has a pair of handle ramps  118  which lift the handle (e.g., the handle arms  109 ) over the ramps  118  as the handle cap  108  rotates  1108  from a closed position to an open position, and vice versa. This will prevent degradation of the handle cap  108  material that would happen when opening  1108 , closing, or locking the carry-handle  106  and handle cap  108  into the closed position. See  FIGS. 3 and 12  which show the lid handle lock recess  302  that retains the arm  109  and the carry-handle  106  and handle cap  108  in the closed (“locked”) position until sufficient opening rotational force is applied to rotate  114  the carry-handle  106 . The handle backstop  116  prevents the carry-handle  106  and handle cap  108  from being rotated  114  too far as it is moved to the closed position. The handle backstop  116  prevents rotating the handle cap  108  past the locked closed position. 
     The lid opening tap  105  is used for leverage by a user to more easily remove the lid  102  from, or attach the lid  102  to, the bucket  104 . The center of the lid  102 , according to the present example, contains the lid feed opening  904  which facilitates wipe media  702 ,  1204  passage  1302  through the lid feed opening  904  from the interior of the bucket  104  to the outside of the dispenser  100 . A logo panel  103  is provided to mark the dispenser  100  or means of advertisement and branding. The logo panel  103  can be changed as an inset to the mold without having to change the mold used to make the lid  102 , according to various embodiments. Liquid drain back openings  1002  are provided next to the toothed ring  1202  to allow excess moisture on a wipe to return to the bucket  104 . The toothed ring facilitates at least one of separating perforated wipe media  1204  pulled from the dispenser  100 , and cutting continuous wipe media  1204  pulled from the dispenser  100 . The lid key feature  402  fits (mates) into the bucket (mating) key slot  404  to provide correct orientation, alignment, and location of the lid  102  relative to the bucket  104  when the lid  102  is snapped onto the bucket  104  for closure. The handle swing cut out  602  on the lid  102  (and a similar handle swing cut out in the side of the bucket  104 ) allows the carry-handle  106  (and arms  109 ), when removed from the locked closed position, to rotatably swing  114  freely between opened and closed positions. 
     The bucket  104  has a plurality of base concentric rings (not shown) from the center to the outer perimeter of the bottom of the bucket  104  to allow the bucket bottom to have abrasion resistance and sit flat on uneven surfaces without rocking. The bucket  104  has a pair of handle posts  112  to attach the carry-handle  106  and handle cap  108  to the bucket  104 . The handle post snap head  112  allows the carry-handle pivot eye  110  to snap onto the handle post  112  for retention. The bucket  104  has a lid key slot  404  used for orientation when the lid  102  and bucket  104  are joined. A liquid level and media window  120  is provided as a transparent window on the side of the bucket  104  to provide a visual indication measure of liquid levels and of the remaining volume of wipe media in the bucket  104  of the container  100 . The liquid level indicator lines  122  are marked in the liquid level and media window  120  to measure liquid level inside the bucket  104 , as well as to indicate the remaining wipe media volume in the bucket  104 . 
     A first perimeter about the top of the bucket  104  includes a snap seal back cut flare that is used to press the lid  102  to the bucket  104 . The snap seal grab extension  111  can be used to help join and separate the bucket  104  from the lid  102 . An outer perimeter region  107  of the lid  102  can rest on the snap seal grab extension  111  that, according to various embodiments, in combination of the snap seal back cut flare pressing against the lid  102  helps form a liquid tight seal between the lid  102  and the bucket  104 . A handle swing cut out  602  in the side of the bucket  104  matches a similar handle swing cut out on the side of the lid  102  to allow the arm  109  of the carry-handle  106  to swing open and closed as the arm  109  of the carry-handle  106 , via the carry-handle pivot eye  110 , rotates  114  about the handle post  112 . 
     Operation 
     The manner of using the dispenser  100  to create a wipe  1204  is unlike that employed by current wipe dispensers. Namely, one first cuts a paper towel roll in half. Next, the desired liquid is dispensed into the bucket  104  with the aid of the media window  120  and the indication lines  122 . Insertion  703  of the wipe media  702  follows. 
     Once the wipe media is saturated, an inner cardboard roll (not shown) is removed from the wipe media  702  leaving a center opening  704  in the wipe media  702 . Center pulling of the wipe media  702  can commence (see  FIG. 13 ). Then one pulls the wipe media  1204  through the lid  102 . Snapping the lid  102  onto the bucket  104  follows, facilitated by the lid key  402  and mating slot  404  (see  FIG. 4 ). The wipe dispenser  100  is now ready for use. Notably, the conical space around the tooth rings  1202  allows for storage of the wipe  1204  (see  FIG. 12 ) when the handle cover  108  is moved into the locked closed position creating a seal with the lid  102 . This seal, according to various embodiments, can be a non-liquid tight seal made by the handle cap  108  pressed onto the lid  102  while covering the lid feed opening  904 . In this closed position, gas can escape from the lid feed opening  904  to vent gas pressure from inside the bucket  104  while preserving a liquid tight seal between the lid  102  and the bucket  104 . The liquid tight seal between the lid  102  and the bucket  104  prevents gas pressure from forcing liquid through the liquid tight seal. 
     Advantages 
     From the description above, a number of advantages of some embodiments of this wet or dry wipe dispenser and container  100  become evident: 
     A versatile aspect of the design allows users to avail themselves of commercially available wipe media  702 ,  1204 . 
     The user can select increments of single wipe lengths at perforated intervals, multiples of perforated intervals, or a less than perforated interval length with the toothed ring  1202  cutting feature on top of the lid  102  and lid feed opening  904  of the dispenser  100 . 
     The sawtooth cutting feature  1202  allows the use of media that is or is not perforated. 
     Near liquid tight design prevents wet wipes from drying out in both hot and/or dry climates. This is true even for long durations of storage. 
     The container is designed to minimize leakage when tipped or inverted. Consequently, the container is appropriate for rugged environments. 
     An additional advantage provided by an aspect of the design is the single-handed operation, such as shown in  FIGS. 11 and 12 .  FIG. 11  shows a single handed opening of the handle cover  108  from the lid  102 .  FIG. 12  shows a single handed closing of the handle cover  108  onto the lid  102 . Additionally, the thumb is not required for wipe dispensing, opening, or closing the dispenser. Alternatively, as an example, the butt of the palm of the hand may be used along with the other fingers  1104  to open or close the dispenser  100 . 
     A concave, oversized dispensing opening is a unique aspect of the container which provides storage under the handle cap  108  when in the closed position covering the lid feed opening  904 . When an excessive number of wipes are dispensed, this storage area keeps them moist. 
     The aspect of an integral carry-handle  106  and handle cap  108  facilitates portability with full or minimal hand dexterity. 
     An array of fluid mixtures can be used to saturate the wipe media  702 . This aspect of the design provides a wipe that can be used by individuals with varying allergies. 
     A unique aspect of the design facilitates container reuse. When depleted, the wipe container can be refilled thereby making it available for a different mixture. 
     A transparent window  120  on the container  100  with graduated marks  122  serves a dual purpose: to indicate a measure of liquid when creating wet wipes and to indicate the volume of wipes remaining in the dispenser bucket  104  whether they are wet or dry. 
     The cost advantage of using off the shelf media for the dispenser  100  allows the user to select any size or quality of media to create a custom solution and to enjoy the low cost benefit of high volume, readily available media  702 . 
     The dispenser  100  can be set with an interchangeable logo field  103  to allow for private branding. Consequently, the container  100  does not rely on labels for branding that will be destroyed in the washing and reuse of the dispenser. 
     Conveniently, commercial wipe heaters may be used since the bucket has been designed for appropriate fit. Additionally, the bucket can accommodate a surrounding storage apron for a variety of applications. 
     Either wet or dry wipes may be dispensed from the container  100 . 
     The container  100  is significantly more rugged than a disposable container. This ruggedness protects the wipe media  702  should the container be crushed or dropped. 
     When in the closed position, the container handle acts as a protection device to retain the lid attached to the bucket. If the container is subjected to distress, the contents are protected from being spilled or damaged. 
     The easy locking handle  106  swings into position with the lid backstop feature  116 . This aspect facilitates single-handed closure. 
     An additional design aspect is the tooth ring found on the inside of the dispenser opening. Difficult to separate media, when pulled from any direction, easily come apart with this design aspect. 
     Some media is more difficult to separate if not perforated or not well perforated. This tooth ring allows the user to pull the media across the teeth to separate difficult media or to cut the media if not perforated. This ring of teeth applies a small drag on the media being pulled to help in separation and in retaining the next wipe to be used. 
     The design of the tooth ring described above allows for an innovative conservation of media. The design allows for moisture to slip back into the bucket, thus maintaining the supply of media solutions intact. 
     The design features alignment keys that prevent the lid from being improperly snapped onto the bucket. 
     The low-friction dispenser opening allows for multiple sheet feeding. These multiple sheets, while still joined, can create a single, larger wipe. 
     Conclusions, Ramifications, and Scope Not Limited by Examples Used in Disclosure 
     Accordingly, the many applications, not limited in scope to the current embodiment, are evident when reviewing the advantages of the “Wet or Dry Wipe Dispenser and Container”. 
     The wet or dry wipe dispenser and container has the following advantages: 
     it permits the creation of a multitude of wipes for a multitude of differing uses; 
     it provides people with limited manual dexterity the ability to operate a container for multiple wiping uses; 
     it provides a wipe container which is rugged; 
     it permits the creation of wipe solutions for people with unique needs; and 
     it permits versatility when selecting wipe media; 
     Although this list contains many specific advantages, these should not be understood to minimize the scope of the possible embodiments. The current embodiment of the carry-handle and cap as a single unit need to be so. According to various embodiments, the carry-handle and the cap can be separate units. Different types of caps may be employed such as a screw or hinged cap. Additionally, the carry-handle need not pivot nor snap to the bucket. Fasteners may be used to attach the carry-handle. The carry-handle may also be molded directly onto the lid. The carry-handle and cap may be manufactured from a variety of materials such as; plastic, aluminum or steel. The lid is integral to the dispenser, however it can be shaped differently. A different embodiment for the lid may be triangular or rectangular. The lid may be manufactured from a variety of materials such as; plastic, aluminum or steel. Within these differing shape embodiments, the lid conforms to the bucket with a liquid tight seal. The lid may conform to the bucket using a variety of possible embodiments such as; screws, snaps or hinge clips. The lid need not contain all of the features of the current embodiment such as; logo-panel, backstop or toothed ring. 
     The height, diameter and volume of the dispenser bucket may be embodied differently to accommodate different media types. The dispenser bucket may be manufactured from a variety of different materials such as; plastic, aluminum or steel. 
     Thus the comprehensiveness of the embodiment should be evaluated by the claims below and their legal equivalents, rather than by the examples given. 
     Although specific embodiments of the subject matter have been disclosed, those having ordinary skill in the art will understand that changes can be made to the specific embodiments without departing from the scope of the disclosed subject matter. The scope of the disclosure is not to be restricted, therefore, to the specific embodiments, and it is intended that the appended claims cover any and all such applications, modifications, and embodiments within the scope of the present disclosure.

Technology Category: b