The present invention relates to a vending machine system, a bin assembly, an array of bin assemblies and a vending machine.
A popular way to make your own bubbly drinks at home is by way of a sparkling water maker, such as the one made by SodaStream™. The sparkling water makers typically come with:
Usage of the sparkling water maker depletes the CO2 in the cylinder and, as such, the cylinder will need to be replaced from time to time.
The cylinders are currently swapped in one of the following ways:
Take your empty SodaStream™ cylinder to the counter at your local Target™, Myer™, Kmart™, or David Jones™ to swap for a full one, with a customer assistant.
It may not be convenient for the customer to travel all the way to a store to swap the cylinder in the manner set out in items 1 and 2 above. This may particularly be the case when the weather is inclement and/or travel is restricted.
Further, the above described system relies on the cashier, and ultimately the store owner, collecting the empty cylinders and contacting the sparkling water maker for collection and refilling. A difficulty here is that the sparkling water maker does not know, at any given point in time, how many empty cylinders are being collected by the stores that they supply. Further again, how human error may lead to cylinders not being collected in total by the store. They tend to go missing.
In an attempt to address some of the above issues, the replacement process has been localised at some petrol stations, such as those including a Coles Express™ Store. The improved process includes the steps of:
Being able to sway a cylinder at a local petrol station may be more convenient than travelling to a large store. However, the above described process is time consuming and relies on a large number of mechanical human step, including the locking and unlocking of cages. Issues can arise with theft, for example, where the customer does not lock the cage properly. Also, the lack of security with the cage lends itself to the customer taking more than one cylinder without paying.
Also, as per processes 1 and 2, the petrol station process still relies on the cashier, and ultimately the store owner, collecting the empty cylinders and contacting the sparkling water maker for collection and refilling. Again the difficulty here is that the sparkling water maker does not know, at any given point in time, how many empty cylinders are being collected by the stores that they supply. Further again, how human error may lead to cylinders not being collected in total by the store. They tend to go missing.
It is generally desirable to overcome or ameliorate one or more of the above described difficulties, or to at least provide a useful alternative.
In accordance with the invention, there is provided a vending machine system for exchanging CO2 gas cylinders, the system including a controller in communication with a user interface, a payment system and an array of bin assemblies, wherein each one of the bin assemblies is shaped to at least partially receive an end of a CO2 gas cylinder and includes a locking system for releasably securing therein a CO2 gas cylinder, said system for performing the steps of:
Preferably, step (ii) is performed by the system before step (i). Step (a) of receiving user input is preferably the same as the step (ii) of receiving a CO2 gas cylinder.
Preferably, each one of the bin assemblies includes an authentication system for confirming that an item received therein is a legitimate CO2 gas cylinder, said the system for performing the step of confirming through the authentication system that the item received in step (ii) is a legitimate CO2 gas cylinder.
Preferably, if said user input represents a desire to purchase a full CO2 gas cylinder without replacement, then the system performs the steps of:
In accordance with the invention, there is also provided a vending machine system for purchasing a CO2 gas cylinder, the system including a controller in communication with:
In accordance with the invention, there is also provided a vending machine system for receiving spent CO2 gas cylinders, the system including a controller in communication with:
Preferably, step (a) of receiving user input is the same as the step (i) of receiving a CO2 gas cylinder.
Preferably, each bin assembly in the array includes a tubular chassis shaped to receive and seat therein a CO2 gas cylinder. The locking system of each bin assembly in the array includes a sled that engages the CO2 gas cylinder as it is inserted in to the tubular chassis and translates with respect to the tubular chassis towards a locked position.
In accordance with the invention, there is also provided a bin assembly for an array of bin assemblies of a CO2 gas cylinder vending machine system, wherein the bin assembly is shaped to at least partially receive an end of a CO2 gas cylinder and includes a locking system for releasably securing therein a CO2 gas cylinder.
Preferably, the bin assembly includes an authentication system for confirming that an item received therein is a legitimate CO2 gas cylinder. The bin assembly includes a tubular chassis shaped to receive and seat therein a CO2 gas cylinder. The locking system includes a sled that engages the CO2 gas cylinder as it is inserted in to the tubular chassis and translates with respect to the tubular chassis towards a locked position.
In accordance with the invention, there is also provided an array of the above-described bin assemblies.
In accordance with the invention, there is also provided a vending machine, including the above described system.
The vending machine system can be installed in any convenient location with 24 hour access. Customers (also referred to as “users”) can use the vending machine system to swap an empty CO2 gas cylinder for a full CO2 gas cylinder.
Being able to sway a cylinder at a local vending machine of the above described type is more convenient than travelling to a large store. Furthermore, exchanging CO2 gas cylinder using the above described vending machine minimises reliance on human steps for locking and unlocking of cages. The vending machine makes theft of CO2 gas cylinders more difficult.
Further, the vending machine securely collects and safely stores returned CO2 gas cylinders. As such, accurate stock of cylinders is maintained by the vending machine.
Preferred embodiments of the invention are hereafter described, by way of non-limiting example only, with reference to the accompanying drawings, in which:
The vending machine system 10 shown in
The vending machine 14 can be installed in any convenient location with 24 hour access, for example. Customers (also referred to as “users”) can use the vending machine 14 to swap an empty CO2 gas cylinder 12 for a full CO2 gas cylinder.
As shown in
Advantageously, the system 10 also includes an authentication system 30 for confirming that an item received therein is a legitimate CO2 gas cylinder 12.
The system 10 performs the process 100 shown in
Advantageously, steps 106 and 108 can be performed in any order. For example, the step 106 of receiving payment can occur after the step 108 of receiving the item. In this embodiment, the step 102 of receiving user input could advantageously be equivalent to the step 108 of receiving an item. To this end, a customer could initiate an exchange by simply inserting a spent CO2 gas cylinder into an empty bin assembly 24.
The user interface 18 shown in
The user can perform this function by simply inserting the expired CO2 cylinder 12 into an empty bin assembly 24 in the array 22, making a selection through the user interface 18 and making a payment through the payment system 20. The process is efficient and convenient with minimal human interaction. No issues arise with theft.
Further, the returned empty CO2 gas cylinders 12 are securely stored in the machine 14. As such, there are no issues with the cylinders 12 not being collected properly by cashiers and cylinders 12 going missing.
In order to release a CO2 gas cylinder 12, the controller 16 electronically triggers the locking system 28 on an appropriate bin assembly 24 to open. In response to this request, the locking system 28 releases the cylinder 12 to the user.
The step, 112, of releasing the CO2 gas cylinder 12 preferably includes the step of identifying a suitable cylinder 12 to release. Advantageously, the locking system 28 releases a full CO2 gas cylinder 12 from a bin 24 in the array 22 that is closest to the bin 24 where the empty CO2 gas cylinder 12 was returned.
The system 10 preferably illuminates an LED ring on the empty bin assembly 24 selected to receive the empty CO2 gas cylinder 12 from the user.
If, at step 114, the user input received represents a desire to purchase a full CO2 gas cylinder 12 without replacement, then the system 10 performs the steps of:
The user interface 18 shown in
The step 118 of releasing the CO2 gas cylinder 12 preferably further includes the steps of:
In doing so, the system 10 releases a cylinder 12 in a bin assembly 24 that relates to the height of the user:
If, at step 120, the user input represents a desire to return an empty CO2 gas cylinder 12 without replacement, then the system 10 performs the steps of:
The system 10 preferably illuminates an LED ring on the empty bin assembly 24 selected to receive the empty CO2 gas cylinder 12 from the user.
Advantageously, the system 10 performs the additional steps of asking the user if they want a receipt of the transaction through the user interface 18. The transaction being the conclusion of the exchange of a CO2 gas cylinder 12, the purchase of a new CO2 gas cylinder or the return of a CO2 gas cylinder. This may be done by generating indicia on a display, for example. On receipt of confirmation from the user through the interface 18, the system 10 generates a receipt for the transaction. The system 10 then performs the step of providing the receipt to the user. This is done by printing a physical copy of the receipt for the user through the user interface 18. Alternatively, the receipt is provided by e-mail to the user, where the user enters his or her e-mail address through the user interface 18.
As shown in
With reference to
As particularly shown in
The locking system 28 of each bin assembly 24 also includes a rotary latch 36 that is engaged by the sled 34 as it translates towards the locked position. A latching arm 38 secures the sled 34 in the locked position.
As shown in
The locking system 28 also includes a tension spring 44 that resiliently urges the sled 34 away from the locked position. The tension spring 44 acts to drive the sled 34 towards the open end 42 of the chassis 32 when the locking system 28 releases the CO2 gas cylinder 12. This facilitates easy removal of the CO2 gas cylinder 12 from the vending machine 14.
As shown in
The collar 54 includes pair of pins 58a, 58b that extend in opposite directions into respective slots 60a, 60b of the long linkage members 46a, 46b. The collar 54 is adapted to translate with respect to the long linkage members 46a, 46b along the length of the slots 60a, 60b.
When a CO2 gas cylinder 12 is inserted into the tubular chassis 32, the necked section 56 of the cylinder 12 engages the collar 54 and the collar 54 is subsequently urged to translate along the slots 60a, 60b towards the latching bar 48 on the sled 34. Further, when the pins 58a, 58b of the collar 54 abut terminal end sections 62 of the slots 60a,60b, the cylinder 12 drives the sled 34 another 20 mm, for example, towards the rotary latch 36, and the latching bar 48 engages an actuator arm 64 of the rotary latch 36 and urges it towards a locked position.
The double action of latching and locking of the locking system 28 secures the CO2 gas cylinder 12 in the vending machine 14. Although the locking system 28 has been above described in terms of the sled 34 translating through the chassis 32 and latching to the rotary latch 36 and pulling down of the locking bar 40, other methods for releasably securing the CO2 gas cylinders 12 in the vending machine 14 are anticipated. For example, the CO2 gas cylinders 12 may be secured in the vending machine 14 by the locking system 28 from one end of the CO2 gas cylinder 12 only.
The authentication system 30 includes:
The latching sensor 66 and the locking sensor 68 confirm that an item inserted into the tubular chassis 32 is a legitimate CO2 gas cylinder 12 when the sled 34 is in the locked position and the locking bar 40 at least partially overlies the open end 42 of the tubular chassis 32 so as to block removal of the cylinder 12.
As shown in
These sensors act to confirm that the item inserted into the chassis 22 is a legitimate CO2 gas cylinder 12.
In one embodiment, the array 22 of bin assemblies 24 is made up of a plurality of clusters 72 of sub-arrays of bin assemblies. For example, each cluster includes nine bin assemblies 24. The clusters 72 are modular and can be separately removed from the array 22 for repair, for example.
In the embodiment shown in
When arranged in the open condition of use, the door 86 allows full access to the tubular chassis 32 to facilitate insertion and removal of CO2 gas cylinders 12 into/from the machine 14.
Each bin assembly 24 includes an actuator (not shown) that drives the door 86 between the open and closed conditions of use. The actuator is in communication with the controller 16 which governs its operation.
Advantageously, the locking system 28 includes use of the door 86 to secure a CO2 gas cylinder in a tubular chassis 32 of a bin assembly.
As shown in
Advantageously, the user interface 18 is a hands free interface that operates from voice commands or hand gestures.
Advantageously, the instead of a rotary latch 36, the bin assemblies 24 include a worm drive.
In the example shown in
The controller 16 is in communication with the bin assemblies 24 by way of the a Bus Master. This would normally be the closest set of 9 bins to the Controller 16.
The protocol between the Controller 16 and the Bus Master 70 supports the ability to communicate via RS485 Bus 74 which can send and receive data from each individual Bin assembly 24 back through the Bus Master 70 to the controller 16.
The system 10 supports the ability for remote updating of both Firmware and Applications, where required.
As shown in
The controller 16 is preferably in communication with a facial recognition system 84 by way of a MIPI / DSI interface.
The controller 16 is preferably a control module including a central processing unit. For example, the controller 16 includes a Broadcom BCM2711 or similar and the CPU for cluster of nine bins 24 will be a STM32F411 or similar. The central processing unit is in communication with non-transient data storage that include instructions stored there on that engage the system components to perform the steps 100 shown in
Alternatively, the controller 16 includes a plurality of central processing units each in communication with non-transient data storage that include instructions stored there on that engage the system components to perform the steps 100 shown in
Further, the controller can include a field programmable gate array that has been configured to engage the system components to perform the steps 100 shown in
As shown in
As shown in
Alternatively, the vending machine 14 includes one of more doors (not shown) to safe guard the array 22 of bin assemblies 24 from exposure to the elements. Each door is hinged to allow access to the bin assemblies 24. Each door is biased so as to default closed position covering the bin assemblies 24.
As used herein, an element recited in the singular and proceeded with the word “a” or “an” should be understood as not excluding plural of said elements or steps, unless such exclusion is explicitly stated. Furthermore, references to “one embodiment” of the present invention are not intended to be interpreted as excluding the existence of additional embodiments that also incorporate the recited features. Moreover, unless explicitly stated to the contrary, embodiments “comprising” or “having” an element or a plurality of elements having a particular property may include additional such elements not having that property.
The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.
List of Parts
Number | Date | Country | Kind |
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2020901325 | Apr 2020 | AU | national |
This application is a continuation of International Application No. PCT/AU2021/050378, filed on Apr. 27, 2021, which claims the benefit of priority to Australian Patent Application No. 2020901325, filed on Apr. 27, 2020. The entirety of each of these applications is hereby incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/AU2021/050378 | Apr 2021 | WO |
Child | 18049819 | US |