The invention relates to cup storage systems, and more particularly to cup storage systems for beverage dispensing machines.
Beverage dispensing systems and machines may include a cup storage area to provide cups for automated and manual applications. Typically, such cup storage systems include structures to accommodate a stack of cups. Generally, such cup storage systems are loaded from a top of the apparatus such that cups are stored in a vertical array. Current cup storage and retention devices are prone to damage when loading, cleaning, and adjusting cups within the apparatus. Further, top loading of the current cup storage apparatus may be difficult and require a ladder or other apparatus to reach a top of a storage apparatus.
There is therefore a need in the art for an improved cup storage device that allows bottom loading of cups within a cup storage device. There is also a need in the art for a cup storage device with improved retention structures that are not prone to damage during loading, cleaning, or adjusting of cups within the device. There is also a need in the art for an improved cup storage device that allows easy replacement of the components over a service life of the device.
In one aspect, there is disclosed a cup storage device for storing and dispensing a plurality of cups that includes a tube having opposing dispensing and terminal ends and inner and outer surfaces defining an open inner volume. A plurality of resilient cup restraining members is disposed on the inner surface of the tube at the dispensing end. The cup restraining members extend from a mounting end proximate the inner surface of the tube to a contact end. A guide structure is positioned on the inner surface of the tube. The guide structure defines a recess. The contact ends of the plurality of cup restraining members are disposed within the recess.
In another aspect, there is disclosed a cup storage device for storing and dispensing a plurality of cups that includes a tube having opposing dispensing and terminal ends and inner and outer surfaces defining an open inner volume. A cup dispensing structure is removably connected to the dispensing end of the tube. The cup dispensing structure includes a plurality of resilient cup restraining members disposed on the inner surface of the cup dispensing structure at the dispensing end. The cup restraining members extend from a mounting end proximate the inner surface of the cup dispensing structure to a contact end. A guide structure is positioned on the inner surface of the cup dispensing structure. The guide structure defines a recess. The contact ends of the plurality of cup restraining members are disposed within the recess.
In a further aspect, there is disclosed a cup storage device for storing and dispensing a plurality of cups that includes a tube having opposing dispensing and terminal ends and inner and outer surfaces defining an open inner volume. A plurality of resilient cup restraining members is disposed on the inner surface of the tube at the dispensing end. The cup restraining members extend from a mounting end proximate the inner surface of the tube to a contact end. A guide structure is positioned on the inner surface of the tube. The guide structure defines a recess. The contact ends of the plurality of cup restraining members are disposed within the recess. When cups are loaded into the tube in a direction from the dispensing end, the contact ends of the cup restraining members remain within the recess upon deflection of the cup restraining members.
Referring to
Again referring to
The guide structure 32 may include various structural members to define the recess 34. In one aspect, as shown in
As stated above, the contact ends 30 of the plurality of cup restraining members 26 or fingers 36 is positioned within the recess 34 of the guide member 32. In one aspect, when cups 12 are loaded into the tube 14 in a direction from the dispensing end 16, the contact ends 30 of the cup restraining members 26 remain within the recess 34 upon deflection of the resilient cup restraining members 26. In one aspect, the angled surface 46 positioned proximate the dispensing end 16 of the tube 14 defines a tapered surface 48 for aligning cups when inserted into the tube 14 from the dispensing end 16 of the tube 14. Additionally, the opposing angled surface 46 also defines a tapered surface for aligning cups 12 when inserted from the terminal end 18 of the tube 14.
Referring to
In one aspect, the dispensing end 116 of the tube 114 includes at least one connection slot 156 formed thereon. The cup dispensing structure 150 includes at least one bayonet or projection 158 formed thereon that is received in the slot 156 for removably connecting the tube 114 and cup dispensing structure 150. In one aspect, the slot 156 may include an opening 160 that extends to a lateral portion 162. In this manner, the bayonet 158 may be inserted into the opening 160 followed by rotation of the cup dispensing structure 150 such that the bayonet is positioned in the lateral portion 162 to connect the cup dispensing structure 150 relative to the tube 114.
In one aspect, the guide structure of the depicted embodiment of
In one aspect, the guide structure 132 with the insert 164 includes spaced notches 166 formed thereon that define the recess 134. As best shown in
As with the previously described embodiment, the guide structure 132 may define a tapered surface at both the dispensing end and terminal ends 116, 118. Additionally as described above, each of the plurality of resilient cup restraining members 126 includes at least two fingers 136 that extend from the cup restraining member 126. Further as described above, each of the fingers 136 extends from the mounting end 128 of the cup restraining member 126 at an angle and extends to an angled bend 138. The angled bend 138 defines a contact surface for engaging a cup 12 positioned within the tube 114. Additionally, the angled bend 138 terminates at the contact end 130 with the contact end 130 positioned within the recess 134 of the guide structure 132.
Referring to
The various embodiments of the cup storage device may be utilized in a beverage dispensing apparatus as shown in
In use, a person may load cups 12 within the cup storage device 10, 110 from either the terminal end 18, 118 of the tube 14, 114 or from the dispensing end 16, 116 of the tube 14, 114. As the cups 12 are loaded into the tube 14, 114 from either end, the plurality of resilient cup restraining members 26, 126, 226 flexes to accommodate storage of cups 12 within the tube 14, 114. The contact ends 30, 130, 230 of the plurality of cup restraining members 26, 126, 226 remain disposed within the recess 34, 134, 234 as cups 12 are loaded or withdrawn from the tube 14, 114. In this manner, cups 12 may be loaded from either the terminal end 18, 118, 218 or dispensing end 16, 116, 216 of the tube 14, 114 without damage to the plurality of resilient cup restraining members 26, 126, 226.
After cups 12 have been loaded within the tube 14, 114, the angled bends 38, 138, 238 of the fingers 36, 136, 236 retain the cup stack within the tube 14, 114 to keep cups from falling through and out of the tube 14, 114. When a cup 12 is extracted from the tube 14, 114, the rim of the cup 12 will pull past the angled bend 38, 138, 238 that defines the contact surface of the finger 36, 136, 236. In one aspect, the longer of the two fingers 36, 136, 236 contacts a side surface of the cup 12 to be dispensed while the shorter contacts the rim and side surface of an adjoining cup 12 to separate cups 12 within the stack.
The invention has been described in an illustrative manner. It is to be understood that the terminology which has been used is intended to be in the nature of words of description rather than limitation. Many modifications and variations of the invention are possible in light of the above teachings. Therefore, within the scope of the appended claims, the invention may be practiced other than as specifically described.
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Number | Date | Country | |
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20140353330 A1 | Dec 2014 | US |