This disclosure relates generally to a cartridge for a dispensing system, e.g., for dispensing of beverages at cafeterias, restaurants, theatres, and other venues.
Various beverage dispensers, such as those at cafeterias, restaurants, theatres and other entertainment and/or food service venues, typically have either a “drop in” dispenser apparatus or a counter top type dispenser apparatus. In a drop in dispenser apparatus, the dispenser apparatus is self-contained and may be dropped into an aperture of a counter top. In a counter top type dispenser apparatus, the dispenser apparatus is placed on a counter top. In conventional beverage dispensers, a dispensing head is coupled to a particular drink syrup supply source via a single pipe dedicated to supply the particular drink syrup to that dispensing head, wherein the particular drink syrup supply source is typically located near the counter top, i.e., directly under the counter top, or directly over the counter top.
A user will typically place a cup under the signage of the selected beverage and either press a button or press the cup against a dispensing lever to activate the dispenser so that the selected beverage is delivered from the dispensing head corresponding to the selected beverage and into the cup until pressure is withdrawn from the button or lever.
Conventional beverage dispensers are limited to dispensing a limited number of drinks. For example, drinks typically available at a conventional beverage dispenser are a regular cola beverage, a diet cola beverage, perhaps one or several non-cola carbonated beverages, such as a lemon-lime flavored carbonated beverage or some other fruit-flavored drink (e.g., orange flavored carbonated beverage, and/or root beer), and perhaps one more non-carbonated beverage(s), such as a tea and/or a lemonade.
Conventional dispensers dose simultaneously components of a mixture or beverage, and the final product is obtained as a result of mixing of two or more continuous flows of the product components. This conventional approach may work well when only low concentrated components are used. If, however, one or more of the components is highly concentrated, the flow rate of such highly concentrated component(s) required for continuous mixing becomes very small. In order to create and maintain such very small and stable flows, very precise and thus more expensive dosing and dispensing equipment is required. Less expensive but less precise equipment may be able to dose highly concentrated components with required level of accuracy, but the resulting flow rate of the created flow of such components may be unacceptably high and thus inappropriate for continuous mixing of flows.
Conventional dispensers typically comprise a cardboard box and a bag, also called “bag-in-box” or “BIB.” Other conventional dispensers comprise a cartridge that does not contain a bag. Cartridges of conventional dispensers are not configured in a manner that prevents a cartridge from being inserted in an incorrect location in a cartridge frame. Among other things, it would be beneficial to have cartridges that are less expensive to make and easier to use than cartridges of conventional dispensers.
What is needed is a cartridge that does not have the limitations and disadvantages of conventional cartridges.
In an aspect of the disclosure, a cartridge comprises a housing. The housing is configured to maintain a pouch within the housing. The cartridge comprises a top and a bottom. The cartridge comprises at least one top mating member at the top of the cartridge and at least one bottom mating member at the bottom of the cartridge. The at least one top mating member is asymmetric with the at least one bottom mating member. Each mating member is configured to match with a corresponding mating member of a cartridge frame or rack.
The above and other aspects, features and advantages of the present disclosure will be apparent from the following detailed description of the illustrated embodiments thereof which are to be read in connection with the accompanying drawings.
The embodiments discussed below may be used to order, deliver and form a wide variety of food products, including but not limited to free-flowing food products, including cold and hot beverages, and including but not limited to beverages known under any PepsiCo branded name, such as Pepsi-Cola®.
In an aspect of the disclosure, a cartridge comprises a housing. The housing is configured to maintain a pouch within the housing. The cartridge comprises a top and a bottom. The cartridge comprises at least one mating member, e.g., a channel or ridge at the top of the cartridge and at least one bottom mating member, e.g., a channel or ridge at the bottom of the cartridge. The at least one top mating member is asymmetric with the at least one bottom mating member. Each mating member, e.g., channel or ridge, is configured to match with a corresponding mating member of a cartridge frame or rack.
In an aspect of the disclosure, the cartridge comprises a pouch. The pouch may be configured to self-align in the cartridge. The pouch may be configured to be filled and then placed in a bottom portion of the cartridge. Once the pouch is placed in the bottom portion of the cartridge, the top portion of the cartridge may be added to the cartridge.
In an aspect of the disclosure, the housing may be configured to maintain any suitable pouch, such as a pouch comprising a component or ingredient for a free-flowing product, e.g., a free-flowing food product. The free-flowing food product may be beverage. The pouch that may be maintained within housing may hold an appropriate amount of net contents of a component or ingredient of a free-flowing product. For example, the cartridge may be configured to maintain a pouch having about 19.2 ounces of net contents of a component free-flowing product. The component may be a highly concentrated micro component for a beverage.
In accordance with various aspects of the disclosure, the cartridge may protect the pouch from damage, such as shipping, handling, storage, installation, and use of the cartridge in a dispensing system. The cartridge may be configured to be tamper resistant. The cartridge may be configured to identify contents maintained within the cartridge.
The cartridge may be configured to identify a current condition(s) of the cartridge or its contents, or a previous condition(s) of the cartridge or its contents. An example of a current or previous condition of the cartridge or its contents may be a temperature to which the cartridge or its contents may have been subjected. Thus, the cartridge may comprise a temperature sensor.
The cartridge may be configured to provide good chemical and/or liquid resistance. The cartridge may be configured to optimize life cycle cost and sustainability of the cartridge. In an embodiment, a cartridge comprises a thermoplastic, e.g., a high density polyethylene polymer (“HDPE”) and/or polyethylene terephthalate (“PET”) and/or polypropylene (PP). The cartridge may have a construction that is compatible with using a thermoplastic as the material in that construction.
In an embodiment, a cartridge may comprise a labeled panel. For example, the labeled panel may be located at an end of the cartridge. The labeled panel may have at least one label area. For example, a label area may comprise any suitable area, e.g., of 4 inches by 2.5 inches or 6 inches by 1⅝th inches. A labeled panel may comprise a tamper resistant seal. The tamper resistant seal may provide an indication that the tamper resistant seal has not been tampered or breached. The tamper resistant seal may have any suitable dimensions, e.g., 1 to 2 inches in height. The labeled panel may comprise any suitable dimensions, e.g., sides that comprise about 9 square inches.
The cartridge may be configured to satisfy a drop test. For example, the cartridge may be configured to withstand a drop onto a solid surface, e.g., concrete, without breaking the cartridge from a height that may be at or exceed the height at which the cartridge may be carried at during normal shipping, handling, storage, installation, and use of the cartridge in a dispensing system shipping, e.g., a height of a few feet, e.g., four feet. In the drop test, the internal load pressure test may be 14 psi.
The cartridge may be configured to satisfy a distributed shipping load without breaking the cartridge. For example, the cartridge may be configured to withstand a 200 pound distributed shipping load when applied to a face of the cartridge, including the front face, the rear face, the top face, the bottom face and the side faces. The fitment of the cartridge may be recessed to allow for stacking ability of upper portions of cartridges, and for stacking ability of lower portions of cartridges.
In an aspect of the disclosure, the cartridge may have a fail-safe or mistake-proofing configuration. Another term that may be used to characterize the fail-safe of mistake-proofing configuration of the cartridge is poka-yoke. Channels and/or ridges in the top and bottom of the cartridge may be configured to match with a corresponding mating member in a cartridge frame or rack. In accordance with an aspect, a top channel or ridge and a bottom channel or ridge may be asymmetric with respect to each other to prevent a cartridge from being inserted upside down or some other incorrect position or orientation.
In accordance with an aspect, the cartridge may accommodate two different size fitments to prevent a liquid filled pouch being placed inside the cartridge in a manner that results in an incorrect fluid connection between the cartridge and a dispensing machine.
In an aspect of the disclosure, certain fitments may be color coded. For example, a first fitment may have a first color (such as black), and a second fitment may have a second color (such as blue). By way of example, the cartridge may have a first fitment colored black corresponding to an acid component for a beverage, and a second fitment colored blue for a flavor component of a beverage. The cartridges may be configured so that the cartridges do not fit into a cartridge frame backwards.
In an aspect of the disclosure, cartridges may be configured to only go in one way into a cartridge frame. In an aspect of the disclosure, cartridges may be configured to be shipped vertically. In an aspect of the disclosure, a shipping box design may be configured that shows the orientation of the cartridges to be shipped. For example, black arrows may be provided on the shipping box to show the orientation of the cartridges within the shipping box for ground delivery. In an aspect of the disclosure, it may be beneficial to ship cartridges horizontally, where permitted, to provide secondary containment. In an aspect of the disclosure, a secondary containment wall may be provided for shipment in the horizontal position. A horizontal position of a cartridge in a dispensing machine may allow for better evacuation of pouches inside the cartridge.
In accordance with an aspect of the disclosure, the cartridge may provide a hand and/or finger grab hold point or tab at the top and/or bottom of the cartridge. The hand and/or finger grab point may be at two or more corners of the cartridge. The hand and/or finger grab may be configured to allow at least a pull force of about 50 Newtons to be applied without damage to the container. In an aspect of the disclosure, a tab may be configured to provide increased strength to the cartridge. A tab may be configured to provide an integrated grip on the cartridge.
In an aspect of the disclosure, a cartridge is configured to be filled on commercially available equipment and/or machine. In an aspect of the disclosure, the cartridge may be configured to provide a membrane over a fitment to keep the fitment clean, e.g., free of dust. The membrane may comprise a dust cap. In an aspect of the disclosure, the cartridge may be configured to have a pull tab with the dust cap attached. In an aspect of the disclosure, the dust cap may be removed prior to inserting the cartridge into a dispensing machine. In an aspect, the membrane may have a fail-safe of mistake-proofing configuration to prevent cartridge insertion into a cartridge frame unless the dust cap is removed. In an aspect of the disclosure, a label may be provided over the tab or dust cap. The label may comprise instructions to a user to remove the dust cap.
In an aspect of the disclosure, a drip pan may be provided and placed below a cartridge(s) to collect any components that may spill. In an aspect of the disclosure, a tamper evident label may be provided with the cartridge. Thus, when the tamper evident label is torn off, wording underneath the label when it was placed on the cartridge may read “void.” In an aspect of the disclosure, a chromatic ink may be placed on the cartridge, e.g., on a label placed on the cartridge that is configured to provide an indication if the cartridge is exposed to an unacceptable temperature. In an aspect of the disclosure, if a recipe is downloaded that calls for a cartridge that is not in a dispensing machine, then a user interface will not display that beverage for selection. In an aspect of the disclosure, if a recipe is downloaded that calls for a cartridge that is empty in a dispensing machine, then a user interface will not display that beverage for selection.
In an aspect of the disclosure, a reader in a dispensing system or a backroom may be configured to ensure that a component(s) is in the correct position. For example, a reader in a backroom may be configured to identify whether a cartridge comprising a high fructose corn syrup (HFCS) is in a correct position in the backroom or cartridge frame. An RFID tag or label on the cartridge or a nozzle may be used for this purpose. In an aspect of the disclosure, a sensor and/or reader and/or fail-safe or mistake-proofing configuration of the cartridge may be used to prevent cross-contamination of different components, e.g., different types of sweeteners. For example, an RFID tag or label sensor or sugar sensor may be used to ensure that a cartridge comprising a sugar sweetener is correctly positioned on a cartridge frame or rack.
In accordance with an aspect of the disclosure, foot rail spacing of a cartridge frame may be configured to be compatible with both “single” and “double” compartment cartridges while maintaining uniform fitment spacing. A latch mechanism may be provided to secure the cartridge in the frame or rack of cartridges. In accordance with an aspect of the disclosure, a latch mechanism may be provided that improves cartridge integrity and prevents fingers from tampering with the latch.
In accordance with an aspect of the disclosure, a fitment lead-in may be provided to assist pouch placement inside cartridge. Further, a latch target area may be increased or maximized to make it easy to close the cover. In accordance with an aspect, the cartridge is devoid of sharp edges that can damage the pouch.
In accordance with an aspect of the disclosure, cartridge shell parts may be configured so that they are capable of being machine manipulated on the filling line. The cartridge shell parts may be configured so that they can be stacked or nested but not “locked” between the cartridges. For example, in accordance with an aspect of the disclosure, at least three (3) cartridge shell parts may be stacked or nested without locking inside each other, with a bottom cartridge shell part, a middle cartridge shell part, and a top cartridge shell part, i.e., a stack ratio of at least 3:1, wherein each cartridges may be moved by hand away from an adjacent cartridge. With a stack ratio of at least 4:1, four (4) cartridge shell parts may be stacked or nested and take no more space than a two (2) cartridge shell parts that are not nested. Those of ordinary skill in the art will recognize that in accordance with the present disclosure, other suitable stacking ratios may be used.
In accordance with an aspect of the disclosure, at least six (6) cartridge shell parts (e.g., up to twelve (12) shell parts) may be stacked or nested without locking between the cartridges. For example, in accordance with an aspect of the disclosure, at least six (6) cartridge shell parts may be stacked or nested without locking inside each other, with a bottom cartridge shell part, at least four (4) intermediate cartridge shell parts, and a top cartridge shell part, i.e., a stack ratio of at least 6:1, wherein each cartridge may be moved by hand away from an adjacent cartridge.
In accordance with the disclosure, each cartridge shell part may comprise a rib. The rib may be configured to prevent a cartridge shell part from sticking to an adjacent nested cartridge shell part. In accordance with the disclosure, a cartridge may comprise a top shell part and a bottom shell part. Each top cartridge shell part may be configured to be nested with another top cartridge shell part. Each bottom cartridge shell part may be configured to be nested with another bottom cartridge shell part. A stack or set of four nested cartridge shell parts, for example, may be about three to four feet high, and provided in a sleeve or stack. The sleeves or stacks may be loaded into automatic pick and place equipment. In accordance with an aspect of the disclosure, each cartridge may not have a hinge. In accordance with aspects of the disclosure identified above, the cartridges provide several benefits over conventional cartridges. For example, the cartridges of the present disclosure may provide better molding stability and easier stacking or nesting than for conventional cartridges and easier pouch placement than bag placement for bag-in-box configurations for conventional dispensers.
In accordance with aspects of the disclosure, a cartridge may be laid down on an elongated side or bottom of the cartridge, e.g., for lower quantity shipments. In accordance with an aspect of the disclosure, a cartridge may be configured to be laid on an end for higher quantity shipments.
In accordance with aspects of the disclosure, material cost per unit of cartridge may be relatively low. As previously noted, in an aspect of the disclosure a cartridge comprises a thermoplastic, e.g., a high density polyethylene polymer (“HDPE”) and/or polyethylene terephthalate (“PET”), and/or polypropylene (PP) may be low cost per unit materials compared to other thermoplastics, e.g., a polycarbonate.
In accordance with an aspect of the disclosure, a cartridge may be configured to provide leak resistance. In an aspect, the cartridge may comprise a tongue and groove combination, the combination configured to provide a difficult leak path to impede or reduce leaking from the cartridge. In accordance with an aspect of the disclosure, a pouch maintained in the cartridge may be configured to have a lower number of seams than a bag in a conventional bag-in-box configuration. For example, in accordance with an aspect of the disclosure, a pouch in a cartridge of the present disclosure may be configured to have four (4) seams as opposed to six (6) seams for a bag in a conventional bag-in-box configuration. Typically, the lower the number of seams, the less likely that a pouch will leak.
In accordance with an aspect of the disclosure, a cartridge may be configured to maintain a pillow pouch. A pillow pouch may be less expensive to make and/or use in a dispensing system than a conventional bag in a conventional cartridge of a conventional dispensing system. A pillow pouch may be made of similar material as a conventional bag and/or have similar surface type as a conventional bag. By relocating a fitment from the center of a pouch to the bottom of the pouch in accordance with an aspect of the present disclosure, better evacuation of fluid out of the pouch is obtained. For example, by having a side by side dual cartridge, each side may have a fitment at the bottom of a pouch in accordance with aspects of disclosure. This construction provides evacuation of fluid out of the dual cartridges, i.e., greater than 97%. In accordance with the present disclosure, a gusset pouch can be stood upright and provide an evacuation channel that may improve evacuation of fluid from the pouch. The gusset pouch may have a suitable number of seams. The gusset pouch may have six (6) seams.
In accordance with an aspect of the disclosure, a plurality of cartridges may be configured to be stackable. For example, the cartridges may be configured to be stackable when empty.
In accordance with an aspect of the disclosure, a cartridge may be configured to have improved grip and/or latch features than in a conventional cartridge. In accordance with an aspect of the disclosure, a cartridge may be configured to provide a pouch fit within the cartridge that is tighter than a bag fit within a conventional BIB, thereby reducing abrasion of the pillow pouch maintained in the cartridge of the present disclosure. The cartridge may comprise a fitment outlet at the bottom of the housing. The fitment outlet may be configured to receive fluid from a pouch maintained within the housing.
In accordance with an aspect of the disclosure, a cartridge may be configured to provide larger label surfaces than those provided with a conventional cartridge. For example, a cartridge in accordance with the disclosure may provide a label surface of about 6 inches×2.5 inches).
A cartridge may be configured to comprise a housing. The housing may be configured to maintain a pillow or gusseted pouch within the housing. The cartridge may comprise a fitment outlet at the bottom of the housing. The fitment outlet may be configured to receive fluid from a pillow pouch maintained within the housing.
In an embodiment, the cartridge may be stackable. Thus, at least a first cartridge may be stacked on a second cartridge. The second cartridge may be configured to have a structure that corresponds to a structure of the first cartridge.
In accordance with the disclosure, a dispensing system may include tracking of cartridge exposure temperature. For example, a cartridge comprising an ingredient component for a free-flowing food product may further comprise a temperature sensor that indicates exposure temperature of each cartridge. Those of skill in the art will recognize that in accordance with this disclosure the temperature sensor may comprise any suitable temperature sensor, e.g., a thermometer and/or a material that exhibits a color change due to a change in temperature (e.g., a thermochromatic liquid crystal or a leuco dye). The temperature sensor may be used to track surface temperature of the cartridge. The temperature sensor may also be used to track the temperature exposure of an ingredient component for a free-flowing food product in the cartridge. The temperature sensor may be located on the cartridge or located in the dispensing system at a location other than on the cartridge. The temperature reading(s) monitored by the temperature sensor may be transmitted to an RFID tag or label, for example, an RFID tag or label on the cartridge. The temperature reading(s) transmitted to the RFID tag or label may be read or downloaded from the RFID tag or label by a reader and transmitted to a server.
Consumption of the ingredient component or level of the ingredient component in a cartridge may be monitored by a consumption or level sensor. The consumption or level may be encoded on an RFID tag or label, such as an RFID tag or label on the cartridge. The consumption or level reading(s) encoded on the RFID tag or label may be read or downloaded from the RFID tag or label by an RFID reader and transmitted to a server.
The server may be configured to receive communications, including temperature reading(s) with respect to at least one cartridge. A processor may be configured to process the communications and write back to an RFID tag or label on the at least one cartridge a communication to indicate at the RFID tag or label whether or not the temperature reading(s) is within specification. The processor may be located remote from the cartridge, e.g., at a warehouse or shipping vehicle. The system may be configured to provide an update RFID tag(s) or label(s). The system may be configured to provide throughout the supply chain update RFID tags or labels.
The system may be configured to monitor when a cartridge may be near or approaching a pre-determined date of last use, e.g., a recommended date of last use from the date the ingredient component in the cartridge is made and/or is placed in the cartridge. The system may be configured to write a byte or other communication to the cartridge if the cartridge is out of date or exposed to an undesirable temperature. The system may be configured to place an identification on the cartridge or an RFID tag or label on the cartridge when the cartridge is out of date or exposed to an undesirable temperature. The system may be configured to prevent dispensing of an ingredient from a cartridge that is out of date or has been exposed to an undesirable temperature. For example, the system may be configured to lock-out the cartridge or prevent dispensing from the cartridge.
For instance, the system may be configured to prevent a cartridge that is out of date or has been exposed to an undesirable temperature to be inserted or reinserted into a dispensing machine or in fluid communication with a dispenser. The system may be configured to identify when a cartridge is out of date or has been exposed to an undesirable temperature, e.g., placing a marking or electronic message on the cartridge.
The system may be configured to use an suitable code, e.g., a code on an RFID tag or label, bar code, infrared code (IR), on or in a container, e.g., in between cup paper layers for the dispensing of a free-flowing food product or ingredients into the container. For example, the system may be configured to read an RFID tag or label on or in a container and provide instructions and/or control operation of device(s) to dispense a free-flowing food product or ingredients into a container in accordance with the read RFID tag or label.
The system may be configured to track each pouch separately that may be placed in a cartridge.
The system may be configured to allow for an RFID and/or other code reader to interface with a user, e.g., near field communication (NFC). For example, the system may be configured to identify a code on an RFID tag or label or other code associated with a mobile device. The system may be configured to bill a user for items purchased using the system, e.g., bill a credit card of the user in accordance with a verification code entered by the user.
Those of skill in the art will recognize that in accordance with the disclosure, a RFID tag or label may comprise an RFID chip. While an RFID chip may be used in accordance with the disclosure, those of skill in the art will recognize that instead of an RFID chip, any suitable chip may be used. For example, an RFID tag or label may comprise a one wire or a two wire chip
The system may be configured to place the system or a portion of the system into a cleaning mode. For example, a cleaning cartridge may be placed in the system and/or operatively connected to the system, wherein an RFID tag or label associated with the cleaning cartridge is read by the system and the system or a portion of the system goes into a cleaning mode. The system may be configured to have an automatic closed loop program wherein the system or a portion of the system transfers a cleaning fluid (i.e., a gas or a liquid) from the cleaning cartridge through at least one portion of the system to clean and/or purge any materials within the at least one portion of the system.
The system may be configured to comprise a screen wand. The screen wand may be a tool with an RFID tag or label that puts a screen in a predetermined mode, e.g., a cleaning mode to allow the screen to be cleaned. An interactive cleaning tool may be configured to provide instructions to an operator or user how to how to disassemble the nozzle and clean the system or machine properly. The interactive cleaning tool may be used for touchup and/or intermediate cleanings throughout the day. The system or machine may comprise a cleaning timer(s) and/or a video(s) that may provide instructions to an operator or user how to clean the system or machine. A reader may be placed at a dispense point of the system or machine, and the reader may be configured to read a signal or code, and wherein a controller or processor places the system into a cleaning mode upon reading of the signal or code by the reader. In an aspect, the system may go into a cleaning mode when a cup having a RFID tag or label or other code (e.g., a bar code) associated with a cleaning mode is placed sufficiently close to the reader, e.g., under a nozzle, so that the reader reads the code, and that code is then transmitted to the controller or processor of the system, which then places the system into the cleaning mode upon receipt of the code from the reader.
In an aspect, a high frequency chip(s) may be used in connection with operation of the system to eliminate cross talk. In an aspect, the system may be configured to use an RFID reader to search for and identify an RFID tag(s) or label(s) in a local area, e.g., the area of a beverage dispenser. In an aspect, an RFID tag or label and/or other code may be used to identify and track a cartridge prior to installation of the cartridge in a frame of the system, and throughout operation of the cartridge in the system, and after the cartridge has been removed from the frame of the system, e.g., identify or confirm when a cartridge has been removed from the frame.
The system may be configured to track what is in the cartridge, the amount of material in the cartridge, date of the cartridge, length of time the cartridge has been installed in the system, a lock code(s) on the cartridge, and a serialized identification number. The system may be configured to read a code on or otherwise associated with a cartridge. Upon reading the code, the system may be configured to unlock a front panel. Upon unlocking of the front panel, a visual and/or or audio signal advises a user of a location where the cartridge should be placed on a frame or rack. The visual and/or audio signal may advise a user of the correct location for the cartridge when the cartridge is placed at a distance sufficiently close to a reader associated with the correct location for the cartridge. The reader may be configured to read a code associated with the cartridge and generate the visual and/or audio signal when the code associated with the cartridge corresponds to the cartridge to be used for the location on the frame or rack. The system may be configured to allow a panel to open and for a spent cartridge to be unlocked and removed from the frame and rack, and allow for a new cartridge to be placed on the frame or rack where the spent cartridge was previously placed.
In an aspect, a partial locking mechanism may be provided. The partial locking mechanism may be configured to allow for the cartridge to be pulled slightly out and then unlock when new cartridge is registered (reader located in the slot). If a cartridge is validated by the system, the partial locking mechanism unlocks a restriction and allows the new cartridge to be inserted and engaged fully with a nozzle.
In an aspect, the system may be configured to allow a cartridge to fully slide into a slot and an RFID tag or label on the cartridge may be read by an RFID reader. A nozzle may be provided that is configured to tilt back away from the cartridge. Once validated by the system, the system may allow the cartridge to be locked into place, and the nozzle to be physically inserted or otherwise moved in fluid communication with the cartridge.
In an aspect, the system may be configured to provide an RFID reader to open a machine or device upon reading a predetermined RFID tag or label. In an aspect, the system may be configured to identify and validate a cartridge. In an aspect, the system may be configured to allow insertion of the cartridge into system without cross contamination between a component in the cartridge and a different component outside the cartridge. In an aspect, the system may comprise two RFID readers, one RFID reader associated with a controller configured to unlock a door or panel, and the other RFID reader associated with a controller configured to unlock a cartridge from a shelf of a frame or rack.
In an aspect, a central RFID reader may be used to put a machine in maintenance mode or diagnostic mode. The central RFID reader may be configured to read an RFID tag or label on a container, e.g., a cup.
In an aspect, the system may be configured to receive and transmit a signal to a cartridge that corresponding to fill level, data inserted, or other information communicated through a smart network to determine the life cycle of cartridge, and to detect if the cartridge trying to be refilled.
In an aspect, a cleaning cartridge may comprise an RFID tag or label. The system may be configured to track a cleaning process, and determine that the cleaning process has been completed with the cleaning cartridge is empty, and that a predetermined amount of water has also passed through machine. The machine may be configured to go into a clean mode, whereupon dispensing is halted during the cleaning process.
Cartridge 100 may comprise an upper portion 128 and a lower portion 130. Upper portion 128 and lower portion 130 may in combination define opening 112. Those of skill in the art will recognize that in accordance with the disclosure, upper portion 128 and lower portion 130 may be connected to each other using any suitable connection structure. For example, but not by limitation, fasteners 132 may be used to connect upper portion 128 with lower portion 130, as shown in
Unlike cartridge 100 which has a single compartment and defines a single opening 122, cartridge 900 has two separate compartments, wherein each separate compartment 915, 917 is configured to hold or maintain a pouch. Further, each separate compartment has a corresponding opening 912, 913, respectively. Thus, cartridge 900 may be characterized as a dual cartridge. Opening 912 and opening 913 may have same dimensions as shown in
Cartridge 900 may comprise an upper portion 921. Upper portion 921 may comprise a right upper portion 924, a left upper portion 926, and a connection member 919, which connects right upper portion 924 to left upper portion 926 of cartridge 900. Upper portion 921 may be a unitary piece. For example, upper portion 921 may be a unitary, molded plastic.
Cartridge 900 may comprise a lower portion 923. Lower portion 923 may comprise a right lower portion 928, a left lower portion 930, and a connection member 925, which connects right lower portion 928 to left lower portion 930 of cartridge 900. Lower portion 923 may be a unitary piece. For example, lower portion 923 may be a unitary, molded plastic.
As shown in
Upper portion 921 and a lower portion 923 may in combination define openings 912 and 913. Those of skill in the art will recognize that in accordance with the disclosure, upper portion 921 and lower portion 923 may be connected to each other using any suitable connection structure. For example, but not by limitation, fasteners 932 may be used to connect upper portion 921 with lower portion 923, as shown in
Cartridge 1700 may comprise an upper portion 1721. Upper portion 1721 may comprise a right upper portion 1724 and a left upper portion 1726. Upper portion 1721 may be a unitary piece. For example, upper portion 1721 may be a unitary, molded plastic. Cartridge 1700 may comprise a lower portion 1723. Lower portion 1723 may comprise a right lower portion 1728 and a left lower portion 1730. Lower portion 1723 may be a unitary piece. For example, lower portion 1723 may be a unitary, molded plastic.
As shown in
In an aspect of the disclosure electronics and/or signals may be brought forward through the channels, and a visual or audio signal may indicate that cartridge 1700 corresponds to correct placement on a frame or rack. In an aspect, cartridge 1700 may comprise a code, e.g., an RFID code. The code may correspond to a component maintained in cartridge 1700. The code may be configured to be read by a code reader of a frame or rack. When cartridge 1700 is placed in relation to the frame and rack at a predetermined correct position, a visual or audio signal (e.g., a “load me” indicator) indicates to a user that cartridge 1700 is in correction position to be moved onto the frame or rack.
Cartridge 2300 has similar aspects as cartridge 900, cartridge 901 and cartridge 1700, previously discussed. Cartridge 2300 has a first compartment 2315 and a second compartment 2317. First and second compartments 2315 and 2317 may correspond respectively to compartments 915 and 917 of cartridge 901 as shown in
As previously discussed, in an aspect of the disclosure, the cartridge may be configured to provide a membrane over a fitment to keep the fitment clean, e.g., free of dust.
Each post aids in mechanical assembly of the cartridge. A tapered alignment ridge is configured to fit into an alignment pocket or groove corresponding in the corresponding upper portion. Those skilled in the art will recognize that various combinations of posts, receptacles, ridges, and/or grooves, etc. may be present in the lower portion and upper portion of a cartridge, and may facilitate proper alignment and mechanical assembly of the cartridge.
Those of skill in the art will recognize that in accordance with the disclosure any of the features and/or options in one embodiment or example can be combined with any of the features and/or options of another embodiment or example.
The disclosure herein has been described and illustrated with reference to the embodiments of the figures, but it should be understood that the features of the disclosure are susceptible to modification, alteration, changes or substitution without departing significantly from the spirit of the disclosure. For example, the dimensions, number, size and shape of the various components may be altered to fit specific applications. Accordingly, the specific embodiments illustrated and described herein are for illustrative purposes only and the disclosure is not limited except by the following claims and their equivalents.
This application claims priority to U.S. application Ser. No. 13/758,601 filed on Feb. 4, 2013, which is incorporated herein in its entirety.
Number | Date | Country | |
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Parent | 13758601 | Feb 2013 | US |
Child | 14822352 | US |