US20210117914A1 - Vending-kiosk based systems and methods to vend and/or prepare items, for instance prepared foods - Google Patents
Vending-kiosk based systems and methods to vend and/or prepare items, for instance prepared foods Download PDFInfo
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- US20210117914A1 US20210117914A1 US17/135,641 US202017135641A US2021117914A1 US 20210117914 A1 US20210117914 A1 US 20210117914A1 US 202017135641 A US202017135641 A US 202017135641A US 2021117914 A1 US2021117914 A1 US 2021117914A1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/083—Shipping
- G06Q10/0832—Special goods or special handling procedures, e.g. handling of hazardous or fragile goods
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60P—VEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
- B60P3/00—Vehicles adapted to transport, to carry or to comprise special loads or objects
- B60P3/025—Vehicles adapted to transport, to carry or to comprise special loads or objects the object being a shop, cafeteria or display the object being a theatre or stage
- B60P3/0257—Vehicles adapted to transport, to carry or to comprise special loads or objects the object being a shop, cafeteria or display the object being a theatre or stage the object being a vending stall, restaurant or food kiosk
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/083—Shipping
- G06Q10/0835—Relationships between shipper or supplier and carriers
- G06Q10/08355—Routing methods
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/08—Logistics, e.g. warehousing, loading or distribution; Inventory or stock management
- G06Q10/087—Inventory or stock management, e.g. order filling, procurement or balancing against orders
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/08—Payment architectures
- G06Q20/18—Payment architectures involving self-service terminals [SST], vending machines, kiosks or multimedia terminals
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F11/00—Coin-freed apparatus for dispensing, or the like, discrete articles
- G07F11/62—Coin-freed apparatus for dispensing, or the like, discrete articles in which the articles are stored in compartments in fixed receptacles
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F17/00—Coin-freed apparatus for hiring articles; Coin-freed facilities or services
- G07F17/0064—Coin-freed apparatus for hiring articles; Coin-freed facilities or services for processing of food articles
- G07F17/0071—Food articles which need to be processed for dispensing in a cold condition, e.g. ice and ice cream
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F17/00—Coin-freed apparatus for hiring articles; Coin-freed facilities or services
- G07F17/0064—Coin-freed apparatus for hiring articles; Coin-freed facilities or services for processing of food articles
- G07F17/0078—Food articles which need to be processed for dispensing in a hot or cooked condition, e.g. popcorn, nuts
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/001—Interfacing with vending machines using mobile or wearable devices
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/002—Vending machines being part of a centrally controlled network of vending machines
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/006—Details of the software used for the vending machines
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/009—User recognition or proximity detection
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/02—Devices for alarm or indication, e.g. when empty; Advertising arrangements in coin-freed apparatus
- G07F9/026—Devices for alarm or indication, e.g. when empty; Advertising arrangements in coin-freed apparatus for alarm, monitoring and auditing in vending machines or means for indication, e.g. when empty
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/10—Casings or parts thereof, e.g. with means for heating or cooling
-
- G—PHYSICS
- G07—CHECKING-DEVICES
- G07F—COIN-FREED OR LIKE APPARATUS
- G07F9/00—Details other than those peculiar to special kinds or types of apparatus
- G07F9/10—Casings or parts thereof, e.g. with means for heating or cooling
- G07F9/105—Heating or cooling means, for temperature and humidity control, for the conditioning of articles and their storage
-
- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/20—Monitoring the location of vehicles belonging to a group, e.g. fleet of vehicles, countable or determined number of vehicles
- G08G1/205—Indicating the location of the monitored vehicles as destination, e.g. accidents, stolen, rental
Definitions
- This description generally relates to food cooking, delivery, distribution and/or vending, for instance using a food distribution system employing one or more vending kiosks.
- the vending kiosks can selectively operate in one of two or more modes of operation.
- the delivery of prepared foods traditionally occurs in several discrete acts.
- a consumer places an order for a particular food item with a restaurant or similar food establishment.
- the restaurant or food establishment prepares the food item or food product per the customer order.
- the prepared food item is packaged and delivered to the consumer's location.
- the inherent challenges in such a delivery method are numerous.
- many foods may experience a commensurate breakdown in taste, texture, or consistency with the passage of time. For example, the French fries at the burger restaurant may be hot and crispy, but the same French fries will be cold, soggy, and limp by the time they make it home.
- some food suppliers make use of “hot bags,” “thermal packaging,” or similar insulated packaging, carriers, and/or food containers to retain at least a portion of the existing heat in the prepared food while in transit to the consumer. While such measures may be at least somewhat effective in retaining heat in the food during transit, such measures do little, if anything, to address issues with changes in food taste, texture, or consistency associated with the delay between the time the food item is prepared and the time the food item is actually consumed.
- Kiosks may be used to vend hot, prepared food items to customers.
- kiosks may be used to prepare and vend hot, prepared food items to customers.
- a kiosk may vend items to multiple customers while remaining stationary in a location when the kiosk is operating in a kiosk vending mode. As such, customers may travel to the location of the kiosk to retrieve food items that the customer has ordered.
- a kiosk may fulfill orders placed by customers by providing hot-prepared items to delivery vehicles to be delivered to the appropriate customer at a delivery destination.
- the kiosk may be self-propelled and may autonomously and/or semi-autonomously travel to one or more delivery destinations to deliver hot, prepared food items that have been ordered by customers.
- a method of operation of a multi-modal food preparation system may be summarized as including: in a kiosk vending mode: transmitting instructions to at least one kiosk that includes a number of food preparation units, the instructions which cause the at least one kiosk to accept orders for instances of food items and to vend the instances of food items directly to a customer to act as a combined cooking and vending kiosk; and in a constellation mode: transmitting information to the at least one kiosk to act as a hub, including information that specifies a plurality of orders for instances of food items to be prepared; and transmitting information to a number of vehicles to act as delivery vehicles, including routing information that routes the additional vehicles between the at least one kiosk that acts as the hub and a plurality of delivery destinations associated with respective ones of the orders.
- the method of operation may further include: transmitting information that causes the at least one kiosk to switch between the kiosk vending mode and the constellation mode.
- the method of operation may further include: in a cook en route mode: transmitting information to the at least one kiosk which transports a number of food preparation units to act as a combined cooking and delivery kiosk, the information including information that specifies a plurality of orders for instances of food items to be prepared including commands to control respective ones of the food preparation units for each of the instances of food items to be prepared, and the information further including destination information that specifies a destination to deliver the orders.
- a method of operation in a kiosk-based food vending system may be summarized as including: for each of a number of vending kiosks in respective locations, each of the vending kiosks having one or more heating elements selectively operable to at least one of warm or cook one or more instances of one or more types of food items: at least one of raising or maintaining a temperature of one or more instances of one or more types of food items; repeatedly vending one or more instances of one or more types of food items; transmitting information representative of at least one of: i) one or more instances of one or more types of food items that have been vended food items or ii) supplies of instances of one or more types of food items available at the respective kiosk, or iii) a need for replenishment; and receiving replenishment from a vehicle based at least on part on the transmitted information.
- the method of operation may further include: dispatching the vehicle to replenish the at least one vending kiosk based at least on part on the transmitted information.
- the method of operation may further include: dispatching the vehicle to replenish the at least one vending kiosk based at least on part on pending orders of food items at the at least one vending kiosk.
- the method of operation may further include: predicting an expected demand for instances of one or more types of food items; and dispatching the vehicle to replenish the at least one vending kiosk based at least on part on the predicted expected demand for instances of one or more types of food items.
- Predicting an expected demand for instances of one or more types of food items may include training at least one neural network with at least one set of training data that represents an actual demand for instances of one or more types of food items previously experienced at one or more locations.
- the at least one set of training data may include training data related to at least one of respective days of the week, special events, time of day, weather, and holidays.
- the method of operation may further include: determining an estimate time required to replenish at least one of the kiosks; determining an estimate time before the kiosk exhausts a supply of one or more instances of one or more types of food items; determining a time at which to dispatch the vehicle based on the estimate times such that there is sufficient time to replenish the at least one vending kiosk before the supply of one or more instances of one or more types of food items is exhausted; and dispatching the vehicle to replenish the at least one vending kiosk based on the determined time at which to dispatch the vehicle.
- the method of operation may further include: the one or more vending kiosks receiving from a remote order processing system one or more orders for one or more instances of one or more types of food items.
- the one or more vending kiosks may each have a respective point-of-sale system, and may further include: receiving one or more orders for one or more instances of one or more types of food items via the respective point-of-sale system of the kiosk.
- the one or more vending kiosks may each have a respective wireless communications system, and may further include: receiving directly from a customer processor-based communications device one or more orders for one or more instances of one or more types of food items via the respective wireless communication system of the one or more vending kiosks.
- At least one of raising or maintaining a temperature of one or more instances of one or more types of food items may be based at least on part on one or more of the received orders.
- the method may further include: determining a replenishment route to each of the number of vending kiosks to replenish food items; and dispatching the vehicle to replenish the at least one vending kiosk based on the determined replenishment route.
- the number of vending kiosks may include one or more self-propelled vending kiosks, and the method may further include: determining a respective route for each of the one or more self-propelled vending kiosks to travel to the respective destinations; and transmitting instructions to each of the one or more self-propelled vending kiosks to travel to the respective destinations.
- a method of operation in a kiosk-based food vending system may be summarized as including: for at least one vending kiosk in a respective location, the at least one vending kiosk having one or more heating elements selectively operable to at least one of warm or cook one or more instances of one or more types of food items: at least one of raising or maintaining a temperature of one or more instances of one or more types of food items; repeatedly dispensing one or more instances of one or more types of food items to one of one or more delivery vehicles; transmitting information representative of at least one of: i) one or more instances of one or more types of food items that have been vended food items or ii) supplies of instances of one or more types of food items available at the respective kiosk, or iii) a need for replenishment; and receiving replenishment from a replenishment vehicle based at least in part on the transmitted information.
- the method of operation may further include: dispatching the replenishment vehicle to replenish the at least one vending kiosk based at least on part on the transmitted information.
- the method of operation may further include: predicting an expected demand for instances of one or more types of food items; and dispatching the replenishment vehicle to replenish the at least one vending kiosk based at least on part on the predicted expected demand for instances of one or more types of food items.
- Predicting an expected demand for instances of one or more types of food items may include training at least one neural network with at least one set of training data that represents an actual demand for instances of one or more types of food items previously experienced at one or more locations.
- the at least one set of training data may include training data related to at least one of special events, respective days of the week, time of day, weather, and holidays.
- the method of operation may further include: determining an estimate time required to replenish at least one of the kiosks; determining an estimate time before the kiosk exhausts a supply of one or more instances of one or more types of food items; determining a time at which to dispatch the replenishment vehicle based on the estimate times such that there is sufficient time to replenish the at least one vending kiosk before the supply of one or more instances of one or more types of food items is exhausted; and dispatching the replenishment vehicle to replenish the at least one vending kiosk based on the determined time at which to dispatch the vehicle.
- the method of operation may further include: the one or more vending kiosks receiving from a remote order processing system one or more orders for one or more instances of one or more types of food items.
- the one or more vending kiosks may each have a respective point-of-sale system, and the method may further include: receiving one or more orders for one or more instances of one or more types of food items via the respective point-of-sale system of the kiosk; and dispensing one or more one or more instances of one or more types of food items directly to one or more customers.
- the one or more vending kiosks may each have a respective wireless communications system, and the method may further include: receiving directly from a customer processor-based communications device one or more orders for one or more instances of one or more types of food items via the respective wireless communication system of the one or more vending kiosks; and dispensing one or more one or more instances of one or more types of food items directly to one or more customers.
- At least one of raising or maintaining a temperature of one or more instances of one or more types of food items may be based at least on part on one or more of the received orders.
- the method of operation may further include: dispatching the one of one or more delivery vehicles to the at least one vending kiosk based at least in part on one or more of readiness of an order to be delivered by the delivery vehicle, of an estimated travel time from the at least one vending kiosk to a destination on a single destination delivery route, the destination associated with the order to be delivered, of an estimated travel time from the at least one vending kiosk to a destination on a multiple destination delivery route, the destination associated with the order to be delivered, and of a delivery time period, the delivery time period which provides a threshold time by which delivery of the order is to be completed.
- a method of operation of a multi-modal food preparation system in a kiosk mode may be summarized as including: distributing food items at a vending kiosk based upon orders received at the vending kiosk and upon orders received at a remote order processing system removed from the vending kiosk, in which the vending kiosk is positioned at a destination and remains stationary at the destination while distributing the food items; transmitting information to a remote replenishment processing system, the transmitted information including vending information related to the food items distributed by the vending kiosk over a defined period of time, the vending kiosk responsive to distribute the food items based upon orders received at the vending kiosk and upon orders received at a facility removed from the vending kiosk; and receiving additional food items at the vending kiosk, the additional food items to be distributed by the vending kiosk.
- the kiosk may be a self-propelled vending kiosk, and the method may further include: receiving instructions regarding a route for the self-propelled vending kiosk to travel to the vending destination; and traversing the route to the vending destination.
- Receiving the additional food items may include receiving instructions to travel to a replenishment location, the replenishment location different from the vending location.
- FIG. 1A is a schematic diagram of a multi-modal food preparation system operating in a kiosk vending mode in which a kiosk serves as a cooking and vending kiosk, and provides instances of food items to customers who have submitted orders, according to at least one illustrated implementation.
- FIG. 1B is a schematic diagram of a multi-modal food preparation system operating in a constellation mode in which the kiosk serves as a hub and provides instances of food items to one or more delivery vehicles for delivery to one or more customers, according to at least one illustrated implementation.
- FIG. 1C is a schematic diagram of a multi-modal food preparation system operating in a cook en route mode in which the kiosk cooks and delivers one or more instances of food items to respective customers who have submitted orders, according to at least one illustrated implementation.
- FIG. 2 is schematic diagram of a multi-modal food preparation system that includes a vending kiosk, a purchasing kiosk, and a mobile device, according to one illustrated implementation.
- FIG. 3A is front, top, right isometric view of a kiosk that includes wheels or optional treads, and may operate in any of a kiosk vending mode, a constellation mode, and a cook en route mode, according to at least one illustrated implementation.
- FIG. 3B is a bottom plan view of the kiosk of FIG. 3A , according to at least one illustrated implementation.
- FIG. 4A front, top, right isometric view of an interior of a food preparation unit in a vending kiosk, according to at least one illustrated implementation.
- FIG. 4B is a front, top, left isometric view of the interior of the food preparation unit in the vending kiosk shown in FIG. 4A , according to at least one illustrated implementation.
- FIG. 5 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a kiosk vending mode, according to one illustrated implementation.
- FIG. 6 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a constellation mode, according to one illustrated implementation.
- FIG. 7 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a cook en route mode, according to at least one illustrated implementation.
- FIG. 8 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which a kiosk prepares and/or vends instances of food items and is replenished with one or more supplies, according to at least one illustrated implementation.
- FIG. 9 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which a kiosk is replenished with one or more supplies, according to at least one illustrated implementation.
- FIG. 10 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which instructions are transmitted to a vehicle to replenish a vending kiosk, according to at least one illustrated implementation.
- FIG. 11 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which instructions are transmitted to a vending kiosk to travel to a replenishment location, according to at least one illustrated implementation.
- FIG. 12 is a schematic block diagram of a control system, according to at least one illustrated implementation.
- FIG. 13A is a front, top, right isometric view of a vending kiosk according to at least one illustrated embodiment, which includes a plurality of vending compartments, one or more cooking units, and a refrigerated supply area.
- FIG. 13B is a rear, top, right isometric view of the vending kiosk of FIG. 13 , better illustrating the refrigerated supply area and input transport elevators, as well as an optional supply rack which can be removably docked in the refrigerated supply area.
- FIG. 13C is a cross-sectional view of the vending kiosk of FIG. 13 , better illustrating the one or more cooking units (e.g., ovens), input transport elevators, and output input transport elevators.
- cooking units e.g., ovens
- input transport elevators e.g., ovens
- output input transport elevators e.g., output transport elevators
- FIG. 14 is a front elevational view of a set or gang of cooking units in the form of ovens according to at least one illustrated implementation, the ovens suitable for use in the vending kiosk of FIGS. 13A-13C .
- FIG. 15 is a front, top, left isometric view of a cooking unit in the form of an oven and a transmission, where the oven is translatable along two different axes according to at least one illustrated implementation, the ovens suitable for use in the vending kiosk of FIGS. 13A-13C .
- FIG. 16A-16D are a front, top, left isometric view of a vending compartment at four successive periods of time or instances, according to at least one illustrated implementation.
- FIG. 17 is a front, top, left isometric view of a vertical transmission and a horizontal transmission, operable to move components of a vending compartment along at least two axes, for instance at four successive periods of time or instances illustrated in FIGS. 16A-16D , according to at least one illustrated implementation.
- FIG. 18 is a cross-sectional view of the vending kiosk employing the vending compartments illustrated in FIGS. 16A-16D , and better illustrating the cooking units (e.g., ovens), input transport elevators, and output input transport elevators, according to at least one illustrated implementation.
- cooking units e.g., ovens
- input transport elevators e.g., input transport elevators
- output input transport elevators e.g., output input transport elevators
- food item and “food product” refer to any item or product intended for human consumption.
- food item and “food product” refer to any item or product intended for human consumption.
- One of ordinary skill in the culinary arts and food preparation will readily appreciate the broad applicability of the systems, methods, and apparatuses described herein across any number of prepared food items or products, including cooked and uncooked food items or products, and ingredients or components of food items and products.
- robot refers to any device, system, or combination of systems and devices that includes at least one appendage, typically with an end of arm tool or end effector, where the at least one appendage is selectively moveable to perform work or an operation useful in the preparation a food item or packaging of a food item or food product.
- the robot may be autonomously controlled, for instance based at least in part on information from one or more sensors (e.g., optical sensors used with machine-vision algorithms, position encoders, temperature sensors, moisture or humidity sensors).
- one or more robots can be remotely controlled by a human operator.
- one or more robots can be partially remotely controlled by a human operator and partially autonomously controlled.
- the term “food preparation unit” refers to any device, system, or combination of systems and devices useful in preparing, cooking or heating a food product, such as, for example, cooking units. While such preparation may include the heating of food products during preparation, such preparation may also include the partial or complete cooking of one or more food products. Additionally, while the term “oven” may be used interchangeably with the term “cooking unit” herein, such usage should not limit the applicability of the systems and methods described herein to only foods which can be prepared in an oven.
- one or more burners can be considered a “cooking unit” that is included within the scope of the systems, methods, and apparatuses described herein.
- Food preparation units may include other types of equipment used to prepare food items, such as equipment related to cooled or chilled foods, such as may be used to prepare smoothies, frozen yogurt, ice cream, and beverages (e.g., fountain beverages). Further, the food preparation unit may be able to control more than temperature. For example, some food preparation units may control pressure and/or humidity. Further, some food preparation units may control airflow therein, thus able to operate in a convective cooking mode if desired, for instance to decrease cooking time.
- a kiosk refers to any standalone structure from which items can be vended.
- a kiosk may be a manned or attended kiosk, which is attended to, or at least partially operated by a human or human attendant. For instance, one or more humans may accept orders, prepare orders, and, or provide the ordered item to a customer.
- a kiosk may be an un-manned kiosk, which is operated without the assistance of a human. For instance, the un-manned kiosk may operate autonomously to accept orders, prepare orders, and, or provide (e.g., dispense) the ordered item to a customer.
- kiosks may be operable in a fully autonomous mode, a partially autonomous mode, or in a dependent mode.
- a kiosk can be fixed, substantially permanently located at a given location.
- a kiosk can be mobile, moving from location to location.
- a mobile kiosk can take the form of a vehicle, for example with a self-contained motive source (e.g., electric traction motor, internal combustion engine) and wheels or treads.
- a mobile kiosk can include a set of wheels, and be pushed or pulled by a human, e.g., a human attendant.
- a mobile kiosk can be driven either autonomously, partially autonomously under guidance of a human, or driven or otherwise moved completely under human control, e.g., via a human attendant.
- a kiosk can have one or more vending slots or openings from which product is dispensed. The slots or openings may omit any door or barrier.
- a kiosk take the form of a locker or set of lockers, having one or more compartments with respective openings and with doors or other barriers which selectively provide access to the interior of compartments from an exterior thereof, to allow customers to access ordered and, or purchased items.
- the term “vehicle” refers to any car, truck, van, or other vehicle useful in cooking and heating a food item for distribution to a customer.
- the size and shape of the vehicle may depend in part on licensing requirements of the locality in which the vehicle is intended to operate. In some instances, the size and shape of the vehicle may depend on the street layout and the surrounding environment of the locality in which the vehicle is intended to operate. For example, small, tight city streets may require a vehicle that is comparatively shorter and/or narrower than a vehicle that can safely and conveniently navigate larger, suburban thoroughfares.
- FIGS. 1A, 1B, and 10 show various modes of a multi-modal food preparation system 100 , including a kiosk vending mode 110 , a constellation mode 120 , and a cook en route mode 130 , according to at least one illustrated implementation.
- a kiosk vending mode 110 (see FIG. 1A )
- a kiosk 102 may include one or more food preparation units 104 that may each be used to prepare and/or vend one or more instances of food items 106 as a combined cooking and vending vehicle 102 a .
- the food preparation unit 104 may include one or more heaters that may be used to selectively heat the food preparation unit 104 . Such a heater may be used to cook or to maintain the warmth of the food item 106 contained or stored within the food preparation unit 104 .
- the kiosk 102 may receive one or more orders for food items.
- such orders may be received from a wireless communication network, for example, via a wireless communication system 108 .
- the kiosk 102 may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., a smart phone 112 a or a tablet 112 b ) directly to the kiosk 102 .
- the kiosk 102 may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to the kiosk 102 .
- a remote order processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116 ) to the kiosk 102 via the wireless communication system 108 .
- the wireless communications network e.g., wireless communications network 116
- the kiosk 102 may selectively warm or heat one or more of the food preparation units 104 via the associated heaters.
- the warming of one of the food preparation units 104 may be used to maintain a temperature of an instance of a food item 106 held within the food preparation unit 104 .
- the heating of one of the food preparation units 104 may be used to cook an instance of a food item 106 held within the food preparation unit 104 .
- the associated food preparation unit 104 may change selectively warm the cooked food item 106 to maintain the temperature of the cooked food item 106 unit is retrieved by a consumer.
- the kiosk 102 may remain stationary at a vending location 118 to vend one or more instances of food items to customers. As such, each of the consumers who have placed an order for an instance of a food item 106 may travel to the vending location 118 to retrieve the instance of the food item 106 that the consumer has ordered. In some instances, the consumer may access the appropriate food preparation unit 104 upon arriving at the vending location 118 by, for example, entering an order and/or identification code into a user interface that may be incorporated into the kiosk 102 .
- the consumer may access the appropriate food preparation unit 104 upon arriving at the vending location 118 , for example, by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., the smartphone 112 a ) associated with the consumer.
- the kiosk 102 may detect the presence of a device (e.g., the smartphone 112 a ) associated with the consumer at the vending location 118 and provide access to the appropriate food preparation unit 104 in response.
- the consumer may be traveling to the vending location 118 from a remote location, such as remote location 122 .
- the kiosk 102 may be provided with an estimated travel time from the remote location 122 to the vending location 118 .
- Such an estimated travel time may be determined by the kiosk 102 and/or may be provided by a remote server such as the remote order processing unit 114 or a third-party server.
- the kiosk 102 may selectively heat the food preparation unit 104 associated with the order from the consumer such that the food item will be fully cooked at or just before the estimated time that the consumer will be arriving to retrieve the order.
- the kiosk 102 may be replenished with supplies, such as cooked and/or uncooked food items 106 , or supplies for preparing, making, and/or assembling food items 106 .
- a vehicle 124 may hold one or more supplies that may be used to replenish the kiosk 102 .
- the vehicle 124 may receive instructions to travel to the vending location 118 in order to replenish one or more supplies for the kiosk 102 .
- Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the vehicle 124 should take.
- the instructions may be transmitted to the vehicle 124 from one or more sources, such as, for example, a replenishment server 126 , or some other remote server, via a wireless communications network 116 .
- the replenishment server 126 may be communicatively coupled to either or both of the vehicle 124 and the kiosk 102 .
- the vehicle 124 may proceed along a replenishment route 132 as indicated by the instructions to replenish the kiosk 102 with one or more supplies and/or instances of food items.
- the replenishment route 132 may be determined by the replenishment server 126 and/or by a third-party server, and transmitted to the vehicle 124 .
- the kiosk 102 may be a self-propelled kiosk that may travel to a replenishment location 144 to be replenished, or to new locations to vend.
- the kiosk 102 may move completely autonomously, based on a desired destination and information about the surrounding environment.
- the kiosk 102 may move semi-autonomously, based on a desired destination and some guidance by a human, either present at the kiosk or located remotely therefrom and monitoring the travels of the kiosk 102 .
- the kiosk 102 may move non-autonomously or dependent on a human, who may push and, or pull the kiosk to the desired destination.
- a building e.g., a warehouse
- a vehicle e.g., a delivery vehicle
- the kiosk 102 may receive instructions to travel to the replenishment location 144 in order to have one or more supplies for the kiosk 102 replenished.
- Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the kiosk 102 should take.
- the instructions may be transmitted to the kiosk 102 from one or more sources, such as, for example, the replenishment server 126 , or some other remote server, via a wireless communications network 116 .
- the replenishment server 126 may be communicatively coupled to either or both of the kiosk 102 , and the building and/or vehicle at the replenishment location 144 . In response to receiving such instructions, the kiosk 102 may be dispatched to traverse the route to the replenishment location 144 .
- the replenishment server 126 may transmit the instructions to replenish the kiosk 102 based upon one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106 ) currently available at the kiosk 102 , the number of instances of food items 106 the kiosk has vended, the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106 , the rate at which the kiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by the kiosk 102 , and/or a signal received from the kiosk 102 indicating a need for replenishment of one or more supplies.
- the amount of supplies e.g., instances of food items 106
- the kiosk has vended the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106
- the rate at which the kiosk 102 is expected to use the supplies in the future
- pending orders to be fulfilled by the kiosk 102 pending orders to be fulfilled by the kiosk 102
- the vehicle 124 may be dispatched to the vending location 118 to replenish the kiosk 102 .
- the kiosk 102 may receive replenishment from the vehicle 124 based at least in part of the information received by the replenishment server 126 .
- the kiosk 102 may be dispatched to the replenishment location 144 to receive replenishment at the replenishment location 144 .
- the replenishment server 126 may include a neural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish the kiosk 102 .
- a neural network 128 may receive one or more of the information listed above as inputs to determine a time at which the kiosk 102 may exhaust one or more of the supplies.
- the neural network 128 may use training data in making such a determination. Such training data may represent actual demand for instances of the food item 106 from the kiosk 102 that may have been experienced at previous times at the same or similar locations.
- the neural network 128 may be able to take into account information regarding the sales of instances of food items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather.
- the neural network 128 may use this training data to predict the demand for the instances of food items 106 in the future.
- the determined expected demand may be used to determine when to transmit the instructions to the vehicle 124 to replenish the kiosk 102 .
- the replenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to the vehicle 124 to replenish the kiosk 102 .
- the replenishment server 126 may determine an estimated time to complete replenishing one or more supplies at the kiosk 102 . Such a determination of an estimated time to replenish may be based, at least in part, on the time to transfer the one or supplies and/or the instances of food items 106 from the vehicle 124 to the kiosk 102 , and/or on the amount of time for the vehicle 124 to travel to the vending location 118 .
- the replenishment server 126 may determine the amount of time before the kiosk 102 the supplies and/or instances of food items 106 . As such, the replenishment server 126 may transmit instructions to the vehicle 124 to replenish the kiosk 102 such that the replenishment is complete before the estimated time by which the kiosk 102 will exhaust one or more of the supplies and/or instances of food items 106 .
- the replenishment server 126 may determine times at which the kiosk 102 may have slack demand for vending instances of food items 106 to customers. As such, the replenishment server 126 may transmit instructions to the vehicle 124 to replenish the kiosk 102 with one or more supplies and/or instances of food items 106 during a period of slack demand to minimize the inconvenience to consumers.
- the kiosk 102 may be at a location 134 , operating as a hub 136 , in which the kiosk 102 prepares one or more food items 106 that are to be delivered to customers in a geographic area 138 surrounding the location 134 .
- Such preparation may include, for example, heating the one or more food items in the respective food preparation unit 104 .
- the food preparation unit 104 may warm the one or food items once the one or more food items are prepared to maintain the temperature of the one or more prepared food items at a desired temperature.
- separate vehicles serve as delivery vehicles 140 and may be used to deliver the prepared food item to an appropriate delivery destination 142 .
- these separate delivery vehicles 140 may cook or complete cooking of food items, while en route to a destination.
- Such separate delivery vehicles 140 may include, for example, ground or flying drones 140 a , 140 b or other automated vehicles, a bicycle 140 c , or a motorized vehicle 140 d .
- the constellation mode 120 may serve a geographic area 138 that is about 2-3 miles in width or radius.
- instructions may be transmitted to the one or more delivery vehicles 140 to retrieve one more food items from the kiosk 102 operating as a hub 115 .
- the delivery vehicle 140 may receive instructions that result in the delivery vehicle 140 being dispatched to the kiosk 102 operating as a hub 115 .
- the delivery vehicle 140 may be dispatched to the kiosk 102 operating as a hub 115 based, for example, at least in part on one or more of readiness of an order to be delivered by the delivery vehicle 140 , of an estimated travel time from the kiosk 102 operating as a hub 115 to a delivery destination 142 using a single destination delivery route, of an estimated travel time from the kiosk 102 operating as a hub 115 to a delivery destination 142 located on a multiple destination delivery route, and of a delivery time period for delivering an order to an associated delivery destination 142 , in which the delivery time period may provide a threshold time by which delivery of the order is to be completed.
- the instructions transmitted to the delivery vehicle 140 may include, for example, destination information for the delivery destinations 142 associated with each of the respective orders of food items to be delivered.
- the instructions transmitted to the delivery vehicle 140 may include route information to the location 134 of the kiosk 102 operating as a hub 115 , and/or route information from the kiosk 102 operating as a hub 115 to the delivery destination 142 associated with an order for an instance of a food item.
- the orders for one or more food items may be received from a wireless communication network, for example, via the wireless communication system 108 .
- the kiosk 102 operating as the hub 136 may receive orders transmitted from one or more customer processor-based communications devices (not shown) directly to the kiosk 102 .
- the remote order processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116 ) to the kiosk 102 operating as the hub 136 via the wireless communication system 108 .
- the received orders for instances of food items may be transmitted from the remote order processing unit 114 to the kiosk 102 operating as the hub 136 .
- the remote order processing unit 114 may transmit one or more of delivering destinations, associated orders for food items, and/or route information from the location 134 to one or more of the kiosk 102 operating as the hub 136 , and/or one or more of the delivery vehicles 140 .
- the kiosk 102 operating as the hub 136 may be replenished with one more supplies and/or food items when operating in the constellation mode 120 , as discussed above in the kiosk vending mode 110 .
- the vehicle 124 may hold one or more supplies that may be used to replenish the kiosk 102 operating as the hub 136 .
- the vehicle 124 may receive instructions to travel to the location 134 in order to replenish one or more supplies for the kiosk 102 operating as the hub 136 .
- the vehicle 124 may proceed along a first replenishment route 132 a as indicated by the instructions to replenish the kiosk 102 operating as the hub 136 with one or more supplies and/or instances of food items.
- the replenishment route 132 may be determined by the replenishment server 126 and/or by a third-party server, and transmitted to the vehicle 124 .
- the kiosk 102 may be a self-propelled kiosk that may travel to a replenishment location 144 , either autonomously, semi-autonomously, or non-autonomously as noted above.
- a building e.g., a warehouse
- a vehicle e.g., a delivery vehicle
- the kiosk 102 may receive instructions to travel to the replenishment location 144 in order to have one or more supplies for the kiosk 102 replenished.
- Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the kiosk 102 should take.
- the kiosk 102 may proceed along a second replenishment route 132 b as indicated by the instructions to travel to the replenishment location 144 .
- the second replenishment route 132 b may be determined by the replenishment server 126 and/or by a third-party server, and transmitted to the kiosk 102 .
- the replenishment server 126 may transmit the instructions to the vehicle 124 to replenish the kiosk 102 based upon one or more factors, as discussed above.
- the replenishment server 126 may include a neural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish the kiosk 102 operating as the hub, as discussed above.
- the replenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to the kiosk 102 operating as the hub 136 .
- the kiosk 102 may prepare and cook food items for delivery as the kiosk 102 travels between different delivery destinations 142 .
- the kiosk 102 may serve as a cooking and delivery vehicle.
- the order of cooking and delivering the food items may be modifiable based on various criteria (e.g., optimizing delivery or wait times, or geographical groupings).
- the kiosk 102 operating in the cook en route mode 130 may be provided with orders for food items grouped within a geographic area 138 to optimize time and resources for delivery. Such orders may be received directly from a consumer and/or from a remote order processing unit 114 via the wireless communication system 108 .
- the kiosk 102 may selectively warm or heat one or more of the food preparation units 104 via the associated heaters to warm and/or prepare an instance of a food item ordered by the consumer.
- the warming of one of the food preparation units 104 may be used to maintain a temperature of an instance of a food item 106 held within the food preparation unit 104 .
- the heating of one of the food preparation units 104 may be used to cook an instance of a food item 106 held within the food preparation unit 104 .
- the associated food preparation unit 104 may change selectively warm the cooked food item 106 to maintain the temperature of the cooked food item 106 unit is retrieved by a consumer.
- the process for cooking a food item ordered by a consumer may be based, at least in part, on an estimate of travel time for the kiosk 102 to travel to the consumer.
- the kiosk 102 may initiate the cooking of a food item ordered by a consumer such that the food item is fully cooked at or before the estimated time that the kiosk 102 will arrive at the delivery destination 142 .
- the estimated travel and/or arrival time may be received from a remote server, such as, for example, the remote order processing unit 114 and/or from a third party server.
- the kiosk 102 operating in the cook en route mode 130 may be replenished with one more supplies and/or food items, as discussed above.
- the vehicle 124 may hold one or more supplies that may be used to replenish the kiosk 102 .
- the vehicle 124 may receive instructions to travel to a location of the kiosk 102 .
- the vehicle 124 may proceed along a replenishment route as indicated by the instructions to replenish the kiosk 102 with one or more supplies and/or instances of food items.
- the replenishment route 132 may be determined by the replenishment server 126 and/or by a third-party server, and transmitted to the vehicle 124 .
- the kiosk 102 may travel to a location at which the kiosk 102 will be arriving at some point in the future.
- the travel instructions provided to the vehicle 124 to travel to the location to replenish the kiosk 102 may be based at least in part on the travel time of the vehicle 124 to the location and on the travel time of the kiosk 102 .
- a location may be determined such that the travel time of the vehicle 124 will be the same as, or substantially equivalent to, the travel time of the kiosk 102 .
- the kiosk 102 may be a self-propelled kiosk that may travel to a replenishment location 144 , either autonomously, semi-autonomously, or non-autonomously as noted above.
- a building e.g., a warehouse
- a vehicle e.g., a delivery vehicle
- the kiosk 102 may receive instructions to travel to the replenishment location 144 in order to have one or more supplies for the kiosk 102 replenished.
- Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the kiosk 102 should take.
- the kiosk 102 may proceed along a second replenishment route 132 b as indicated by the instructions to travel to the replenishment location 144 .
- the second replenishment route 132 b may be determined by the replenishment server 126 and/or by a third-party server, and transmitted to the kiosk 102 .
- the replenishment server 126 may transmit the instructions to the vehicle 124 to replenish the kiosk 102 based upon one or more factors, as discussed above.
- the replenishment server 126 may include a neural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish the kiosk 102 operating as the hub, as discussed above.
- the replenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to the kiosk 102 operating as the hub 136 .
- the kiosk 102 may simultaneously operate in both the cook en route mode 130 and the constellation mode 120 .
- the kiosk 102 may be traveling to a delivery destination 142 to deliver a food item while at the same time preparing other food items to be delivered to other delivery destinations 142 by other separate delivery vehicles (e.g., motorized vehicle 140 d ).
- the kiosk 102 may transmit one or more meeting locations to these other separate delivery vehicles 140 at which the prepared food items may be transferred to the other separate delivery vehicles 140 .
- the meeting locations may be different from the current location of the kiosk 102 .
- the kiosk 102 may determine the time remaining before a food item to be delivered by one of the other separate delivery vehicles 140 will be prepared.
- the kiosk 102 may then determine a location or area where the kiosk 102 is likely to be when delivering the food item for the cook en route mode 130 .
- the kiosk 102 may then transmit a meeting spot to the other separate delivery vehicle 140 to meet at the determined location or within the determined area to transfer the food item to be delivered in the constellation mode 120 .
- the kiosk 102 may temporarily remain stationary at the determined location or within the determined area to transfer food items to multiple other delivery vehicles 140 for delivery to multiple other delivery destinations 142 as part of the constellation mode 120 .
- the kiosk 102 may then continue to the delivery destination 142 for the food item to be delivered as part of the cook en route mode 130 .
- a self-propelled kiosk can operate autonomously, semi-autonomously, or non-autonomously in traveling between locations.
- a kiosk can prepare (e.g., assemble, heat, cool, cook) items (e.g., prepared food items) autonomously, semi-autonomously, or non-autonomously. Such operation can be independent of whether the kiosk travels between locations either autonomously, semi-autonomously, or non-autonomously.
- a kiosk can vend or dispense or provide access to items (e.g., prepared food items), autonomously, semi-autonomously, or non-autonomously. Such operation can be independent of whether the kiosk travels between locations either autonomously, semi-autonomously, or non-autonomously.
- Such operation can be independent of whether the kiosk prepares (e.g., assembles, heats, cools, cooks) items (e.g., prepared food items) autonomously, semi-autonomously, or non-autonomously.
- FIG. 2 shows a kiosk-based food vending system 200 that includes a vending kiosk 202 , a purchasing kiosk 204 , a mobile device 206 , and a remote order processing system 208 , according to one illustrated implementation.
- the kiosk-based food vending system 200 may function in one of the kiosk vending mode 110 , the constellation mode, and/or the cook en route mode 130 .
- the kiosk-based food vending system 200 may selectively transition between the kiosk vending mode 110 , the constellation mode, and/or the cook en route mode 130 as a multi-modal food preparation system.
- the vending kiosk 202 may include one or more food preparation units 210 that contain items that may be purchased and subsequently retrieved by consumers.
- the vending kiosk 202 may be communicatively coupled with the purchasing kiosk 204 and the mobile device 206 via an antenna 212 and radio 214 that are included as part of the vending kiosk 202 .
- the purchasing kiosk 204 may include a purchasing kiosk antenna 216 that the purchasing kiosk 204 may use to wirelessly transmit signals to, and receive wirelessly transmitted signals from, the antenna 212 on the vending kiosk.
- the mobile device 206 may include one or more mobile device antenna 220 that the mobile device 206 may use to wirelessly transmit signals to, and receive wirelessly transmitted signals from, the antenna 212 on the vending kiosk 202 .
- the purchasing kiosk 204 and/or the mobile device 206 may advantageously be used to receive and/or authorize purchase transactions at locations that are remote from the vending kiosk 202 from which the purchased items are retrieved.
- Such an arrangement provides consumers with the ability to place and authorize purchase transactions at their convenience, such as, for example, when the consumer is in transit to the vending kiosk 202 .
- Such an arrangement may be used for crowd control and management by separating the purchase transaction activities at the purchasing kiosk 204 from the item retrieval activities at the vending kiosk 202 , thereby decreasing the number of consumers who may be congregating around the vending kiosk 202 at any given time.
- the vending kiosk 202 may include a control system 218 .
- the control system 218 may take the form of any current or future developed processor-enabled device capable of executing one or more instruction sets.
- the control system 218 may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks.
- the control system 218 may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor. Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of the vending kiosk 202 .
- the processor-readable instructions, instruction sets, or instruction blocks may control the operation of various subsystems or components on the vending kiosk 202 , such as various components of a user input device 222 .
- the control system 218 may be used to communicate using one or more using wireless communications protocols via the antenna 212 and radio 214 .
- some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device, such as the remote order processing system 208 . In such an implementation, the resulting control signals may be transmitted to the vending kiosk via a communication network.
- one or more components in the wireless network may communicate using wireless communications protocols, such as protocols for wireless local area networks (e.g., WIFI®, IEEE 802.11, WiMAX, IEEE 802.116, VoIP, and the like) or protocols for wireless peer-to-peer communications (e.g., Bluetooth®, Bluetooth® Low Energy, and the like).
- wireless communications protocols such as protocols for wireless local area networks (e.g., WIFI®, IEEE 802.11, WiMAX, IEEE 802.116, VoIP, and the like) or protocols for wireless peer-to-peer communications (e.g., Bluetooth®, Bluetooth® Low Energy, and the like).
- the devices such as the vending kiosk 202 , the purchasing kiosk 204 , and/or the mobile device 206 may communicate via near field communication (NFC) and/or radio frequency identification (RFID).
- NFC near field communication
- RFID radio frequency identification
- the purchasing kiosk 204 and/or the vending kiosk 202 may include a user input device 222 that may include one or more of a magnetic stripe reader 224 , a keypad 226 , a touchscreen 228 , an image capture device 230 , and/or a biometric capture device 232 .
- the magnetic stripe reader 224 may be used to read and collect information that has been encoded within a financial transaction card using, for example, a magnetic stripe, a card chip, or some other type of storage medium.
- the magnetic stripe reader 224 may be communicatively coupled to one or more processors that may authorize a requested purchase transaction based upon information stored within and/or associated with the financial transaction card.
- Such one or more processors may be located locally at the purchasing kiosk 204 and/or remotely from the purchasing kiosk 204 at one or more processor-enabled devices, such as the remote order processing system 208 , that may be communicatively coupled to the purchasing kiosk 204 via a communications network 234 .
- the keypad 226 and/or touchscreen 228 may be used to enter information related to an item stored within one or more of the food preparation units 210 in the vending kiosk 202 .
- the keypad 226 and/or touchscreen 228 may be used to enter a key code that may associated with a previous purchase transaction and/or order to be retrieved from one of the food preparation units 210 in the vending kiosk 202 .
- the key code may include an order identifier that may be associated with a previous purchase transaction and may be comprised of a unique code that is associated with an order to be retrieved from the vending kiosk 202 .
- the order identifier may be a randomly generated identifier that is not related to the order identifiers associated with other items being stored within the vending kiosk 202 . Such a randomly generated identifier may be used, for example, to prevent orders from being stolen, and to reduce the possibility that an order entry that has been mis-entered will nonetheless open the door 236 to one of the food preparation units 210 associated with another order.
- the key code may additionally or alternatively include a customer identifier that may be associated with the customer who will be retrieving the order from the vending kiosk 202 .
- the touchscreen 228 may be used to display information identifying the appropriate door 236 from which a consumer can retrieve an order from the vending kiosk 202 .
- the image capture device 230 may include, for example, a video camera or a still-image camera that may be used to capture images.
- images may include, for example, machine-readable symbols that may be displayed within a field-of-vision of the image capture device 230 .
- machine-readable symbols may include, for example, bar codes and/or Quick Response codes.
- the machine-readable symbols may be affixed to a physical object (e.g., printed on a piece of paper) and/or may be rendered on a changeable display.
- the machine-readable symbol may be electronically transmitted to a portable device via, for example, an email and/or text to an address associated with the consumer, to be rendered on a display of the portable device within the field-of-vision of the image capture device 230 .
- the image capture device 230 in such an implementation may transmit the captured image of the machine-readable symbol to a processor-enabled device to decode the information contained within the machine-readable symbol.
- a processor enabled device may be local to the purchasing kiosk 204 or located remotely from the purchasing kiosk 204 .
- the processor-enabled device may transmit one or more signals that may result in the appropriate door 236 to one of the food preparation units 210 in the vending kiosk 202 being unlocked for the consumer.
- the biometric capture device 232 and associated software may be used to identify consumers based upon one or more physical characteristics.
- the biometric capture device 232 and associated software may be used to identify consumers based upon, for example, one or more of fingerprints, facial features, eye feature, vocal characteristics, and/or any other unique physical characteristic of the consumer.
- such software may be implemented by one or more processor-enabled devices, including processor-enabled devices that may be communicatively coupled to the purchasing kiosk 204 via a communications network. Once the biometric capture device 232 and associated software has identified the consumer, the processor-enable device may transmit one or more signals that may result in the appropriate door 236 to one of the food preparation units 210 in the vending kiosk 202 being unlocked for the consumer.
- the mobile device 206 may be used to enter purchasing information and to retrieve an item from one of the food preparation units 210 in the vending kiosk 202 . Such purchasing and retrieval via the mobile device 206 may be facilitated by a user application, or app, that is implemented on and displayed by the mobile device 206 .
- the consumer may use a software application (app) with an associated user interface presented by the mobile device 206 to authorize a purchase transaction for an item held in one of the food preparation units 210 in the vending kiosk 202 .
- the app may be used to display pictures or other information related to the items stored in the various food preparation units 210 in the vending kiosk 202 .
- the app rendered by the mobile device 206 may be used to display additional information to facilitate a purchase transaction by the consumer.
- the app may be used to display or otherwise present information, such as location information in the form of a map and/or address list, for multiple vending kiosks 202 located within the vicinity of the consumer. Such information may also include the type of items currently available for purchase from each of the different vending kiosks 202 .
- Such an app may enable the consumer to remotely authorize a purchase transaction for items that may be retrieved from one of the various vending kiosks 202 . The consumer may then travel to the appropriate vending kiosk 202 without worrying that the item may have been sold out in during the interim period while the consumer traveled to the vending kiosk 202 .
- the consumer may use the app rendered by the mobile device 206 to retrieve items from the vending kiosk 202 .
- the app may be used to produce a machine-readable symbol that may be detected by the vending kiosk 202 .
- a machine-readable symbol may be in the form of a visual symbol (e.g., a bar code symbol or a Quick Response code symbol) that may be detected by an image capture device 230 at the vending kiosk 202 .
- a machine-readable symbol may be contained within a wireless transmission, such as an NFC signal and/or an RFID signal, that may be received by the antenna 212 and radio 214 at the vending kiosk 202 .
- the vending kiosk may open the door 236 to the appropriate food preparation units 210 of the vending kiosk 202 to provide access to the food item to be retrieved from the associated food preparation unit 210 .
- the app may be used to display information identifying the door 236 to the appropriate food preparation unit 210 of the vending kiosk 202 upon confirming the purchase transaction.
- the remote order processing system 208 may be communicatively coupled to the vending kiosk 202 via the communications network 234 .
- the remote order processing system 208 may execute one or more instructions from a purchase confirmation application to confirm a purchase transaction for one or more food items being held within one or more of the food preparation units 210 in the vending kiosk 202 .
- purchase transactions may be initiated by one or more of the vending kiosk 202 , the purchasing kiosk 204 , and/or the mobile device 206 , for example.
- the purchase confirmation application can be executed by one or more hardware circuits, for instance one or more processors and stored on one or more associated nontransitory storage media, e.g., memory (e.g., FLASH, RAM, ROM) and/or spinning media (e.g., spinning magnetic media, spinning optical media) that stores at least one of processor-executable instructions or data.
- the remote order processing system 208 may communicatively couple with the vending kiosk 202 to transmit information to confirm a purchase transaction.
- Some communications can employ one or more proprietary communications channels, for instance a proprietary network communications channel like a proprietary Local Area Network (LAN) or proprietary Wide Area Network (WAN) such as one or more intranets.
- LAN Local Area Network
- WAN Wide Area Network
- Some communications can employ one or more non-proprietary communications channels, for instance one or more non-proprietary network communications channels like a Wide Area Network (WAN) such as the Internet and/or cellular provider communications networks including voice, data and short message service (SMS) networks or channels as part of the communications network 234 .
- WAN Wide Area Network
- SMS short message service
- the remote order processing system 208 may execute one or more instructions from an end user authentication application to authenticate the identity of an end user to retrieve one or more food items being held within one or more of the food preparation unit 210 in the vending kiosk 202 .
- Such end user authentication may be initiated by one or more of the vending kiosk 202 , the purchasing kiosk 204 , and/or the mobile device 206 .
- the end user authentication application can be executed by one or more hardware circuits, for instance one or more processors and stored on one or more associated nontransitory storage media, e.g., memory (e.g., FLASH, RAM, ROM) and/or spinning media (e.g., spinning magnetic media, spinning optical media) that stores at least one of processor-executable instructions or data.
- memory e.g., FLASH, RAM, ROM
- spinning media e.g., spinning magnetic media, spinning optical media
- the remote order processing system 208 may communicatively couple with the vending kiosk 202 to transmit information to confirm a purchase transaction.
- Some communications can employ one or more proprietary communications channels, for instance a proprietary network communications channel like a proprietary Local Area Network (LAN) or proprietary Wide Area Network (WAN) such as one or more intranets.
- Some communications can employ one or more non-proprietary communications channels, for instance one or more non-proprietary network communications channels like a Wide Area Network (WAN) such as the Internet and/or cellular provider communications networks including voice, data and short message service (SMS) networks or channels as part of the communications network 234 .
- WAN Wide Area Network
- SMS short message service
- the remote order processing system 208 may transmit routing, cooking (e.g., temperature control schedule), and/or destination instructions to the vending kiosk 202 and/or one or more delivery vehicles (not shown) via the communications network 234 . Such routing and/or destination instructions may be used, for example, when the vending kiosk 202 is autonomously movable.
- the vending kiosk 202 may store the transmitted routing, cooking, and/or destination instructions on one or more nontransitory storage media to be used during routing of the vehicle, cooking of food items, and/or travel to a destination.
- the remote order processing system 208 may transmit updated routing, cooking, and/or destination instructions to the vending kiosk 202 , which may thereby update the previously stored instructions.
- the vending kiosk 202 may transmit information back to the remote order processing system 208 .
- Such information may include, for example, number and amount of sales of food items, remaining ingredients left in the vending kiosk 202 , current location of the vending kiosk 202 , and like information.
- the routing, cooking, and/or destination instructions may be used by the vending kiosk 202 to travel to the distribution location.
- FIGS. 3A and 3B show a multi-modal food preparation system 300 that includes a self-propelled kiosk 301 with a vending kiosk 302 , a set of wheels 304 , a motor 306 , an optional cleaning subsystem 308 , and an on-board self-propelled vehicle control system 310 , according to at least one illustrated implementation.
- a multi-modal food preparation system 300 may selectively transition between the kiosk vending mode 110 , the constellation mode, and/or the cook en route mode 130 as a multi-modal food preparation system.
- the multi-modal food preparation system 300 may optionally not have an on-board self-propelled vehicle control system 310 , and may optionally remain stationary.
- the vending kiosk 302 may include a plurality of doors 312 that may provide access to corresponding food preparation units 314 . Items, such as food items, may be retrieved from the food preparation units 314 . Each of the doors 312 may be in an open configuration 316 to provide access to the associated food preparation unit 314 , or in a closed configuration 318 to prevent access to the associated food preparation unit 314 . In some implementations, one or more of the doors 312 may be selectively locked in the closed configuration 318 to protect the item being stored in the corresponding food preparation unit 314 until the item can be retrieved by the consumer who has purchased the item.
- the set of wheels 304 may be used by the self-propelled kiosk 300 to travel across a geographic area.
- the motor 306 may be drivingly coupled to one or more wheels in the set of wheels 304 , and used to drive the set of wheels 304 in an autonomous vehicle mode or in a semi-autonomous vehicle mode.
- the motor 306 may be any type of motor that may be used to drive the set of wheels 304 , such as an electric motor, a gasoline-powered motor, a natural gas-powered motor, or any other type of similar motor.
- a set of treads 320 may be used to travel over a physical terrain. In such implementations, the set of treads 320 may provide improved stability when traveling over uneven terrain as compared to the set of wheels 304 .
- the self-propelled kiosk 300 may be provided with destination information (e.g., destination location and/or route information), and the self-propelled kiosk 300 may navigate to the destination without any control or supervision by a human.
- the self-propelled kiosk 300 may use one or more sensors to collect information about the surroundings of the self-propelled kiosk 300 . Based upon the collected information, one or more control systems on the self-propelled kiosk 300 may determine what actions the self-propelled kiosk 300 should take in response in order to continue traveling towards the destination location.
- the self-propelled kiosk 300 in the semi-autonomous vehicle mode, the self-propelled kiosk 300 may be subject to at least some control and/or supervision by a human.
- the self-propelled kiosk 300 may use one or more sensors to collect information about the surroundings of the self-propelled kiosk 300 .
- a human controller may have the ability to review the collected information and control the navigation of the self-propelled kiosk 300 based upon this collected information.
- the human controller may intervene to control the self-propelled kiosk 300 in limited situations, such as, for example, when a control system on the self-propelled kiosk 300 cannot identify a next action to take in a given situation.
- the cleaning subsystem 308 may include one or more brushes 322 , a plenum 324 , and a low-pressure source 326 , and a debris collection compartment 328 .
- the brushes 322 and the plenum 324 may be located along a bottom-facing side 330 ( FIG. 3B ) of the self-propelled kiosk 300 , and may be oriented to face towards the ground or other surface on which the self-propelled kiosk 300 rests.
- the brushes 322 may have an annular shape or a circular shape with an outside diameter 331 and a height 332 .
- the height 332 of the brushes 322 may be equal to or larger than a distance separating the bottom-facing side 330 of the self-propelled kiosk 300 from the ground or surface on which the self-propelled kiosk 300 rests. In this situation, at least a portion of the brushes 322 may make contact with the surface on which the self-propelled kiosk 300 rests to facilitate the collection of debris from the surface. In some implementations, at least some of the brushes 322 may be drivingly coupled to a motor that may move the brushes 322 to improve the collection of debris. In implementations in which the brushes 322 have a circular profile, the motor may rotate the brushes 322 about an axis of rotation 333 that extends outward from a center of the brushes 322 .
- the brushes 322 may be rotated to sweep debris towards a collection component (e.g., the plenum 324 , discussed below) located on the bottom facing side 330 of the self-propelled kiosk 300 .
- a collection component e.g., the plenum 324 , discussed below
- the portion of the brush 322 facing the direction of movement of the self-propelled kiosk 300 may be rotated towards collection component to thereby facilitate the collection of debris.
- the cleaning subsystem 308 may include a plenum 324 and an associated low pressure source 326 .
- the plenum 324 may have an open end 334 and extend outward from the bottom-facing side 330 of the self-propelled kiosk 300 such that the open end 334 is directed towards the surface that supports the self-propelled kiosk 300 .
- the open end 334 of the plenum 324 may have a rectangular profile with a length and a width, and the plenum 324 may have a height 336 . Such height 336 may be less than the distance from the bottom-facing side 330 of the self-propelled kiosk 300 and the surface on which the self-propelled kiosk 300 .
- the plenum 324 may be in fluid communication with the low pressure source 326 , such as a pump.
- the low pressure source 326 may create a low pressure that is less than an atmospheric pressure of the ambient environment surrounding the self-propelled kiosk 300 .
- the low pressure created by the low pressure source 326 may produce a suction effect at the open end 334 to thereby draw debris into the open end 334 of the plenum 324 .
- the plenum 324 may be in fluid communication with a debris collection compartment 328 such that a fluid pathway extends from the open end 334 of the plenum 324 to the debris collection compartment 328 .
- the debris that enters the open end 334 of the plenum 324 may travel through the fluid pathway to the debris collection compartment 328 .
- the debris collection compartment 328 may include an interior cavity that may store the debris collected by the cleaning subsystem 308 .
- the debris collection compartment 328 may be selectively removable from the self-propelled kiosk 300 such that the debris contained within the debris collection compartment 328 may be emptied.
- the on-board self-propelled vehicle control system 310 may take the form of any current or future developed processor-enabled device capable of executing one or more instruction sets.
- the on-board self-propelled vehicle control system 310 may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks.
- the on-board self-propelled vehicle control system 310 may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor.
- Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of the self-propelled kiosk 300 , such as the motor 306 and/or the cleaning subsystem 308 .
- the processor-readable instructions, instruction sets, or instruction blocks may control the operation of self-propelled kiosk 300 in one or both of the autonomous vehicle mode and the semi-autonomous vehicle mode.
- some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device.
- the resulting control signals may be transmitted to the vending kiosk via a communication network.
- FIGS. 4A and 4B show different isometric views of an interior 400 of one food preparation unit 402 in a vending kiosk 404 , according to at least one illustrated implementation.
- a container 406 such as a container that may hold one or more food items, is supported in the food preparation unit 402 , for instance resting one a bottom surface 408 of the food preparation unit 402 .
- the interior 400 of the food preparation unit 402 may include one or more side walls 410 and an upper surface 412 .
- the bottom surface 408 , the one or more side walls 410 , and the upper surface 412 may comprise the interior surfaces of the food preparation unit 402 .
- the food preparation unit 402 may include a heater 416 that may be used to increase the temperature of the interior 400 of the food preparation unit 402 to a heated state.
- the heater 416 may include one or more of an electrically resistive heating element, a natural gas burner, a propane burner, and/or an inductive heating element.
- the heater 416 may be positioned, for example, along a side wall 410 that is opposite the opening 418 to the food preparation unit 402 .
- the heater 416 may include a heater opening 420 through which heat may be introduced to the interior 400 of the food preparation unit 402 .
- one or more walls of the compartments may include thermally radiant elements (e.g., electrically resistive conduits carrying heated fluid).
- a fan may be used to direct heated air into the interior 400 of the food preparation unit 402 through the heater opening 420 or to otherwise circulate heated air throughout the food preparation unit 402 .
- each food preparation unit 402 in the vending kiosk 404 may include a separate heater 416 , such that the vending kiosk 404 includes a plurality of heaters 416 .
- at least one of the plurality of heaters 416 may include an electrically resistive heating element.
- the heated state provided by the heater 416 may include a cooking state in which the heater 416 may raise the temperature in the food preparation unit 402 to at least 325° F. to cook an item of food stored in the compartment.
- the heated state provided by the heater 416 may include a heating state in which the heater 416 may be operable to raise the temperature in the food preparation unit 402 to between 140° F. and 250° F.
- the heater 416 may be operable transition between the cooking state and the warming state based upon one or more signals, such as signals that may be transmitted by a processor-enabled device. In such implementations, for example, the heater 416 may transition from the cooking state to the warming state in response to a food item being fully cooked, such that the fully cooked food item may be maintained at a warm, elevated temperature until the food item is retrieved.
- the food preparation unit 402 may include a cooler 422 that may be used to decrease the temperature of the interior 400 of the food preparation unit 402 .
- the cooler 422 may include one or more of a refrigerant carrying coil and compressor, a Peltier device, or thermoelectric cooler.
- the cooler 422 may be positioned, for example, along one of the side walls 410 of the food preparation unit 402 .
- the cooler 422 may include a cooler opening 424 through which cooled, refrigerated air may be introduced to the interior 400 of the food preparation unit 402 to thereby lower the temperature of the interior 400 of the food preparation unit 402 in a refrigerated state.
- a fan may be used to direct the refrigerated air into the interior 400 of the food preparation unit 402 .
- One or more Peltier devices can advantageously be used for both cooling and heating.
- each food preparation unit 402 in the vending kiosk 404 may include a separate cooler 422 , such that the vending kiosk 404 includes a plurality of coolers 422 .
- at least one of the plurality of coolers 422 may include a refrigerant carrying coil.
- the refrigerated state provided by the cooler 422 may lower the temperature within the interior 400 of the food preparation unit 402 to at or below 41° F. to cool an item of food stored in the compartment.
- one food preparation unit 402 may include a heater 416 and a cooler 422 that may be operable to transition between the refrigerated state, the warming state, and the cooking state.
- the cooler 422 may maintain a food item at a lower temperature (e.g., at or below 41° F.) until an order for the food item is received, and/or a signal to begin cooking the food item is received. At that point, the cooler 422 may stop providing refrigerated air to the interior 400 of the food preparation unit 402 . At or about the same time, the heater 416 may transition to the cooking state to cook the food item held within the interior 400 of the compartment until the food item is cooked. When the food item is cooked, the heater 416 may transition from the cooking state to the warming state to keep the food item warm until the food item is retrieved from the food preparation unit 402 .
- a lower temperature e.g., at or below 41° F.
- the food preparation unit 402 may optionally include a stone floor or cast iron floor. In some implementations, the food preparation unit 402 includes electrically radiant elements. In some implementations, the food preparation unit 402 may include one or more Peltier thermoelectric heater/coolers. In some implementations, the food preparation unit 402 takes the form of air impingement ovens, including one or more blowers that blow extremely hot air, and optionally a rack with a manifold. In some implementations, the food preparation unit 402 may include a thermally insulative barrier, preferably a Yttrium, Indium, Manganese, and Oxygen (YInMn) barrier.
- YInMn Oxygen
- a processor enabled device or component may be used to implement a temperature control schedule to be used to control the temperature state within one or more of the food preparation units 402 in the vending kiosk 404 .
- Such temperature states may specify, for example, that the heater 416 heat the food preparation unit 402 to a cooking state to cook a food item, and then transition to a warming state to keep the cooked food item warm.
- the temperature control schedule may specify that the compartment be kept in a refrigerated state by the cooler 422 for a first time period, and then specify that the compartment be kept in a cooking state by the heater 416 for a second time period in order to completely cook the food item.
- the temperature control schedule may be based at least in part on an estimated pick-up time at which an end user will be arriving to pick-up the food item being cooked. As such, the temperature control schedule may be set to minimize the amount of time that elapses after the food item is completely cooked and the expected time at which the end user will arrive to retrieve the item. In some implementations, the temperature control schedule may be modified based upon an updated expected arrival and pick-up time for the end user. In some implementations, the temperature control schedule may be used to transition the food preparation unit 402 between one or more of the refrigerated state, the cooking state, and the warming state.
- the vending kiosk 404 may include one or more actuators, such as a locking actuator 426 a , a door-rotating actuator 426 b , and a magnetic actuator 426 c (collectively, “actuators 426 ”).
- actuators 426 may be comprised of one or more of a solenoid, a piston and cylinder (e.g., hydraulic, pneumatic), a pair of magnets including at least one electromagnet, or a pair of an electromagnet and a ferrous metal, for example.
- one or more of the locking actuator 426 a , the door-rotating actuator 426 b , and/or a magnetic actuator 426 c may be included in the same structure and/or be implemented by the same actuator.
- the locking actuator 426 a may include a latch component 428 that may be comprised of a housing 430 and a selectively extendable latch 432 that may be used to lock and unlock the doors 434 .
- the selectively extendable latch 432 may be selectively contained within the housing 430 in a retracted state and selectively extended from one end of the housing 430 in an extended state.
- the selectively extendable latch 432 may be selectively extended from the housing 430 when a door 434 is in the closed configuration (e.g., closed configuration 318 ) to thereby secure the door 434 in a locked state in the closed configuration.
- the selectively extendable latch 432 may engage with an associated strike plate 438 that is installed along a portion of the side wall 410 of the corresponding food preparation unit 402 when the selectively extendable latch 432 is in the extended state and the door 434 is in the locked state in the closed configuration (e.g., closed configuration 318 ).
- the selectively extendable latch 432 may transition between the extended state and the retracted state responsive to an actuator signal that may be received, for example, by the latch component 428 from a processor-enabled device or component. In some implementations, for example, the selectively extendable latch 432 may transition to the retracted state when such an actuator signal is received. In such implementations, the selectively extendable latch 432 may default to the extended state in the absence of such an actuator signal. In some implementations, the selectively extendable latch 432 may include a beveled edge that faces the opening 418 of the food preparation unit 402 .
- Such a beveled edge may facilitate the selectively extendable latch 432 retracting into the housing 430 sufficiently for the door 434 to transition to the closed configuration, at which point the selectively extendable latch 432 may transition to the extended state and engage with the strike plate 438 when the selectively extendable latch 432 and the strike plate 438 align.
- the door-rotating actuator 426 b may be physically coupled to the door 434 and/or to the food preparation unit 402 via a first door-rotating actuator portion 440 and to a portion of the food preparation unit 402 via a second door-rotating actuator portion 442 .
- the first door-rotating actuator portion 440 may be used to apply a rotational force to the door 434 to physically move the door 434 by rotating the door 434 about the axis of rotation 444 , thereby transitioning the door 434 between an open configuration 446 and a closed configuration (e.g., closed configuration 318 ).
- the door-rotating actuator 426 b may be responsive to an actuator signal received, for example, from a processor enabled device or component to physically move the door 434 to the open configuration 446 by applying an outward rotational force to the door 434 .
- the first door-rotating actuator portion 440 may apply an inward rotational force to the door 434 to thereby transition the door 434 to the closed configuration (e.g., closed configuration 318 ).
- the magnetic actuator 426 c may be used to apply a linear force on the door 434 to transition the door 434 between the open configuration 446 and the closed configuration.
- the magnetic actuator 426 c may include a housing 448 mounted along a side wall 410 of the food preparation unit 402 and/or the interior surface 450 of the door 434 , and a pair of magnets, a first magnet 452 a mounted along the door 434 (e.g., in the housing 448 ) and a second magnet 452 b mounted along the interior surface 450 of the door 434 .
- the first magnet 452 a and the second magnet 452 b may be aligned when the door 434 is in the closed configuration (e.g., closed configuration 318 ).
- the first magnet 452 a and the second magnet 452 b may be of the same polarity such that the pair of magnets provides an outward rotational force on the door 434 , thereby biasing the door 434 to the open configuration 446 .
- the first magnet 452 a and the second magnet 452 b may be of opposite polarities such that the pair of magnets provides an inward rotational force on the door 434 , thereby biasing the door 434 to the closed configuration (e.g., closed configuration 318 ).
- At least one of the first magnet 452 a and the second magnet 452 b may be an electromagnet that may be selectively activated, such as, for example, by an actuator signal received from a processor controlled device or component.
- the pair of magnets may provide a rotational force when receiving such an actuator signal.
- the first magnet 452 a and the second magnet 452 b may be of opposite polarities such that the attractional force between the magnets may keep the door 434 in a closed and locked position.
- an electromagnet may be employed, along with a circuit that controls a magnetic attraction (e.g., ON/OFF; North/South) of the electromagnet.
- the electromagnet may be paired with, for example a permanent magnet or a piece of ferrous metal, or another electromagnet.
- the magnetic actuator 426 c may include a housing and a selectively extendable arm (not shown) in which the selectively extendable arm is selectively contained within the housing in a retracted state, and selectively extended from the housing in an extended state.
- the selectively extendable arm may be responsive to selectively extend and/or retract based upon an actuator signal received from a processor-enabled device and/or component.
- the selectively extendable arm may transition to the extended state, thereby providing an outward rotational force on the door 434 when the door 434 is in the closed configuration (e.g., closed configuration 318 ).
- Such an outward rotational force may be sufficient to physically move the door 434 away from the closed configuration (e.g., closed configuration 318 ). In some implementations, such movement may serve as a visual indication to a consumer of the food preparation unit 402 that holds the item associated with the consumer.
- a processor-enabled device or component may be used to control the operation of one or more of the heater 416 , the cooler 422 , the locking actuator 426 a , the door-rotating actuator 426 b , and/or the magnetic actuator 426 c .
- the processor-enabled device may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks.
- the processor-enabled device may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor.
- Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of the vending kiosk 404 , such as the actuators 426 .
- the processor-readable instructions, instruction sets, or instruction blocks may control the operation of various subsystems or components on the vending kiosk, such as heater 416 , and/or the cooler 422 .
- some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device. In such an implementation, the resulting control signals may be transmitted to the vending kiosk via a communication network.
- FIG. 5 shows a method 500 that may be used to transmit information to a kiosk 102 to operate in a constellation mode 120 in a multi-modal food preparation system 100 , according to one illustrated implementation.
- the method 500 can, for example, be executed by one or more processor-based devices, for instance the control system 218 and/or the remote order processing system 208 , and starts at 502 .
- a processor-based device may transmit instructions to the kiosk 102 to operate in kiosk vending mode 110 .
- the kiosk 102 may be located at a vending location 118 , and may remain, stationary, at the vending location 118 while it operates in the kiosk vending mode 110 .
- the kiosk 102 may include one or more food preparation units 104 that may each be used to prepare and/or vend one or more instances of food items 106 as a combined cooking and vending vehicle 102 a .
- the food preparation unit 104 may include one or more heaters that may be used to selectively heat the food preparation unit 104 . Such a heater may be used to cook or to maintain the warmth of the food item 106 contained or stored within the food preparation unit 104 .
- the instructions transmitted at 504 may cause the kiosk to accept orders for instances of food items, and/or to vend instances of food items that are provided directly to customers.
- orders may be received from a wireless communication network, for example, via a wireless communication system 108 .
- the kiosk 102 may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., a smart phone 112 a or a tablet 112 b ) directly to the kiosk 102 .
- the kiosk 102 may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to the kiosk 102 .
- the kiosk 102 may selectively warm or heat one or more of the food preparation units 104 via the associated heaters.
- the warming of one of the food preparation units 104 may be used to maintain a temperature of an instance of a food item 106 held within the food preparation unit 104 .
- the heating of one of the food preparation units 104 may be used to cook an instance of a food item 106 held within the food preparation unit 104 .
- the kiosk 102 may vend one or more food items to customers by providing each customer with access to the appropriate food preparation unit 104 when the customer arrives at the vending location 118 .
- the access may be provided, for example, by the customer entering an order and/or identification code into a user interface that may be incorporated into the kiosk 102 .
- the consumer may access the appropriate food preparation unit 104 upon arriving at the vending location 118 , for example, by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., the smartphone 112 a ) associated with the consumer.
- the customer may enter the order and/or identification code into the user input device 222 that may be accessible on a vending kiosk 202 and/or purchasing kiosk 204 , which may be located at the vending location 118 .
- the kiosk 102 may detect the presence of a device (e.g., the smartphone 112 a ) associated with the consumer at the vending location 118 and provide access to the appropriate food preparation unit 104 in response.
- a device e.g., the smartphone 112 a
- the method 500 terminates, for example until invoked again.
- the method 500 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 6 shows a method 600 of operating a multi-modal food preparation system 100 in a constellation mode 120 , according to one illustrated implementation.
- the method 600 can, for example, be executed by one or more processor-based devices, for instance the control system 218 and/or the remote order processing system 208 , and starts at 602 .
- a processor-enabled device may transmit instructions to a kiosk 102 to operate as a hub 136 in a constellation mode 120 .
- Such instructions may include providing information regarding a location 134 at which the kiosk 102 is to serve as a hub 136 .
- the instructions may include a description of the geographic area 138 for which the kiosk 102 is to serve as a hub 136 .
- such instructions may include information regarding one or more delivery vehicles 140 that may provide deliveries from the kiosk 102 to delivery destinations 142 within the geographic area 138 .
- vehicle information may include, for example, type of vehicle, location, information regarding the current driver of the delivery vehicle 140 , amount of time on-shift, amount of time remaining in shift, carrying capacity of the delivery vehicle 140 , and other such similar information.
- the kiosk 102 may begin to prepare one or more food items 106 that may be delivered to customers in the geographic area 138 surrounding the location 134 .
- Such preparation may include, for example, heating the one or more food items in the respective food preparation unit 104 .
- the food preparation unit 104 may warm the one or food items once the one or more food items are prepared to maintain the temperature of the one or more prepared food items at a desired temperature.
- a processor-enabled device may transmit information to one or more delivery vehicles 140 .
- information may include instructions to retrieve one or more food items 106 from the kiosk 102 , and/or instructions to deliver the retrieved food items 106 to one or more delivery destinations 142 .
- the delivery vehicle 140 may be dispatched to the kiosk 102 operating as a hub 115 .
- the dispatch of the delivery vehicle to the kiosk 102 operating as a hub 115 may be based on one or more criteria, such as, for example, the readiness of an order to be delivered by the delivery vehicle 140 , an estimated travel time from the kiosk 102 operating as a hub 115 to a delivery destination 142 using a single destination delivery route, an estimated travel time from the kiosk 102 operating as a hub 115 to a delivery destination 142 located on a multiple destination delivery route, and a delivery time period for delivering an order to an associated delivery destination 142 , in which the delivery time period may provide a threshold time by which delivery of the order is to be completed.
- the delivery time period may provide a threshold time by which delivery of the order is to be completed.
- the instructions transmitted to the delivery vehicle 140 may include, for example, destination information for the delivery destinations 142 associated with each of the respective orders of food items to be delivered.
- the instructions transmitted to the delivery vehicle 140 may include route information to the location 134 of the kiosk 102 and/or route information from the location 134 of the kiosk 102 to the delivery destination 142 associated with an order for an instance of a food item.
- the method 600 terminates, for example until invoked again.
- the method 600 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 7 shows a method 700 of operating a multi-modal food preparation system 100 in a cook en route mode 130 , according to at least one illustrated implementation.
- the method 700 can, for example, be executed by one or more processor-based devices, for instance the control system 218 and/or the remote order processing system 208 , and starts at 702 .
- a processor-enabled device such as, for example, the remote order processing system 208 , may transmit instructions to a kiosk 102 to operate in a cook en route mode 130 .
- Such instructions may cause the kiosk 102 to enter a mode of operation in which the kiosk 102 is operable to prepare and/or cook food items for delivery as the kiosk 102 travels between different delivery destinations 142 .
- the kiosk 102 may serve as a cooking and delivery vehicle.
- a processor-enabled device may transmit information to the kiosk 102 regarding one or more food items to prepare and/or deliver.
- information may include preparation and/or cooking instructions to prepare and/or cook food items to be delivered by the kiosk 102 .
- the kiosk 102 may selectively warm or heat one or more of the food preparation units 104 via the associated heaters to warm and/or prepare an instance of a food item ordered by the consumer in response to receiving the information in 706 .
- the warming of one of the food preparation units 104 may be used to maintain a temperature of an instance of a food item 106 held within the food preparation unit 104 .
- the heating of one of the food preparation units 104 may be used to cook an instance of a food item 106 held within the food preparation unit 104 .
- the associated food preparation unit 104 may change selectively warm the cooked food item 106 to maintain the temperature of the cooked food item 106 unit is retrieved by a consumer.
- the process for cooking a food item ordered by a consumer may be based, at least in part, on an estimate of travel time for the kiosk 102 to travel to the consumer.
- a processor-enabled device may transmit information to the kiosk 102 regarding a destination location to deliver the prepared food item.
- the information transmitted to the kiosk 102 may include, for example, destination information for the delivery destinations 142 associated with each of the respective orders of food items to be delivered.
- the instructions transmitted to the kiosk may include route information to the delivery destination 142 associated with an order for an instance of a food item.
- such route information may include a single-delivery route and/or a multiple-delivery route for the kiosk 102 to traverse in order to deliver one or more instances of food items to single delivery destination 142 and/or to multiple delivery destinations 142 , respectively.
- the information in 708 regarding the delivery destinations 142 may be included in the same transmission and/or set of transmission that included the information in 706 regarding one or more food items to prepare and/or deliver.
- the method 700 terminates, for example until invoked again.
- the method 700 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 8 shows a method 800 of operating a multi-modal food preparation system 100 in which a kiosk 102 prepares and/or vends instances of food items and is replenished with one or more supplies, according to at least one illustrated implementation.
- the method 800 can, for example, be executed by one or more processor-based devices, for instance the control system 218 and/or the remote order processing system 208 , and starts at 802 .
- a processor-enabled device may receive an order for an instance of a food item contained within one of the food preparation units 104 in a kiosk 102 .
- a kiosk 102 may be operating in any one of the kiosk vending mode 110 , the constellation mode, and/or cook en route mode 130 .
- the processor-enabled device may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., a smart phone 112 a or a tablet 112 b ) directly to the processor-enabled device (e.g., the remote order processing unit 114 , and/or the control system 218 ).
- the processor-enabled device may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to the kiosk 102 .
- a remote order processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116 ) to the kiosk 102 via the wireless communication system 108 .
- a processor-enabled device such as, for example, the control system 218 and/or the remote order processing system 208 , may selectively raise and/or maintain a temperature within the food preparation unit 104 to heat and/or maintain the temperature of a food item contained within the food preparation unit 104 .
- the warming of one of the food preparation units 104 may be used to maintain a temperature of an instance of a food item 106 held within the food preparation unit 104 .
- the heating of one of the food preparation units 104 may be used to cook an instance of a food item 106 held within the food preparation unit 104 .
- the associated food preparation unit 104 may change selectively warm the cooked food item 106 to maintain the temperature of the cooked food item 106 unit is retrieved by a consumer.
- the kiosk 102 and/or delivery vehicle 140 may vend the selected food item from the food preparation unit 104 .
- the kiosk 102 may provide each customer with access to the appropriate food preparation unit 104 when the customer arrives at the vending location 118 and/or when the kiosk 102 and/or the delivery vehicle 140 arrives at a delivery destination 142 .
- the access may be provided, for example, by the customer entering an order and/or identification code into a user interface that may be incorporated into the kiosk 102 and/or the delivery vehicle 140 .
- the consumer may access the appropriate food preparation unit 104 upon arriving at the vending location 118 by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., the smartphone 112 a ) associated with the consumer.
- the customer may enter the order and/or identification code into the user input device 222 that may be accessible on a vending kiosk 202 and/or purchasing kiosk 204 , which may be located at the vending location 118 .
- the kiosk 102 may detect the presence of a device (e.g., the smartphone 112 a ) associated with the consumer at the vending location 118 and provide access to the appropriate food preparation unit 104 in response.
- the kiosk 102 may transmit information via a wireless communication system 108 to an off-site processor-enabled device, such as, for example, the replenishment server 126 .
- information may include, for example, such as, for example, the amount of supplies (e.g., instances of food items 106 ) currently available at the kiosk 102 , the number of instances of food items 106 the kiosk has vended, the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106 , the rate at which the kiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by the kiosk 102 , and/or a signal received from the kiosk 102 indicating a need for replenishment of one or more supplies.
- the amount of supplies e.g., instances of food items 106
- the kiosk has vended the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106
- the rate at which the kiosk 102 is expected to use the supplies in the future, pending orders to
- the kiosk may be replenished, such as, for example, by the vehicle 124 .
- the vehicle 124 may be dispatched to the vending location 118 to replenish the kiosk 102 .
- the kiosk 102 may receive replenishment from the vehicle 124 based at least in part of the information received by the replenishment server 126 .
- the kiosk 102 may be dispatched to receive replenishment at the replenishment location 144 .
- the method 800 terminates, for example until invoked again.
- the method 800 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 9 shows a method 900 of operating a multi-modal food preparation system 100 in which the kiosk 102 is replenished with one or more supplies, according to at least one illustrated implementation.
- the method 900 can, for example, be executed by one or more processor-based devices, for instance the remote order processing system 208 and/or the replenishment server 126 , and starts at 902 .
- a processor-enabled device such as, for example, the remote order processing system 208 and/or the replenishment server 126 , may receive information transmitted from the kiosk 102 .
- Such information may include, for example, such as, for example, the amount of supplies (e.g., instances of food items 106 ) currently available at the kiosk 102 , the number of instances of food items 106 the kiosk has vended, the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106 , the rate at which the kiosk 102 is expected to use the supplies in the future, and/or a signal received from the kiosk 102 indicating a need for replenishment of one or more supplies.
- the amount of supplies e.g., instances of food items 106
- the kiosk has vended the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106
- the rate at which the kiosk 102 is expected to use the supplies in the future
- a signal received from the kiosk 102 indicating a
- a processor-enabled device such as, for example, the remote order processing system 208 and/or the replenishment server 126 , may receive information regarding pending orders to be processed by the kiosk 102 . Such information may be received, for example, from the kiosk 102 and/or from the remote order processing system 208 .
- the pending order information may include, for example, the number of pending orders for the kiosk 102 , the number of each type of food item 106 that is currently part of a pending order for the kiosk, the amount of time for the kiosk 102 to prepare and fulfill each pending order, the quantity of each supply that will be needed to prepare and fulfill each pending order, an estimated time by which each pending order and/or the set of pending orders will be completed, and/or an each pending order will be delivered.
- a processor-enabled device may predict future demand at the kiosk 102 .
- the processor-enabled device may include a neural network 128 or other learning machine that may be used to predict future demand at the kiosk 102 .
- a neural network 128 may receive some or all of the information listed above as inputs to determine future demand.
- the neural network 128 may use training data in making such a calculation. Such training data may represent actual demand for instances of the food item 106 from the kiosk 102 that may have been experienced at previous times at the same or similar locations.
- the neural network 128 may be able to take into account information regarding the sales of instances of food items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather.
- the neural network 128 may use this training data to predict the demand for the instances of food items 106 in the future.
- a processor-enabled device such as, for example, the remote order processing system 208 and/or the replenishment server 126 , may dispatch a vehicle 124 to replenish the kiosk 102 with one or more supplies and/or food items.
- the method 900 terminates, for example until invoked again.
- the method 900 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 10 shows a method 1000 of operating a multi-modal food preparation system 100 in which instructions are transmitted to a vehicle 124 to replenish a vending kiosk 102 , according to at least one illustrated implementation.
- the method 1000 can, for example, be executed by one or more processor-based devices, for instance the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , and starts at 1002 .
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may determine an amount of time to replenish the kiosk 102 with one or more supplies and/or food items. Such a determination of an estimated time to replenish one or more supplies and/or food items at the kiosk 102 may be based, at least in part, on the time to transfer the one or supplies and/or the instances of food items 106 from the vehicle 124 to the kiosk 102 , and/or on the amount of time for the vehicle 124 to travel to the location of the kiosk 102 .
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may determine the amount of time before the kiosk 102 exhausts one or more supplies and/or food items.
- Such a determination may be based one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106 ) currently available at the kiosk 102 , the number of instances of food items 106 the kiosk has vended, the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106 , the rate at which the kiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by the kiosk 102 , and/or a signal received from the kiosk 102 indicating a need for replenishment of one or more supplies.
- the amount of supplies e.g., instances of food items 106
- the kiosk has vended the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106
- the rate at which the kiosk 102 is expected to use the supplies in the future
- pending orders to be fulfilled by the kiosk 102 pending orders to be fulfilled by the kiosk 102
- a signal received from the kiosk 102 indicating a need for replenish
- the determination of when the kiosk 102 may exhaust one or more supplied and/or food items may take into account information regarding the sales of instances of food items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather.
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may transmit instructions to the vehicle 124 to dispatch the vehicle 124 to replenish the kiosk 102 .
- Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the vehicle 124 should take to the kiosk 102 .
- the instructions may be transmitted to the vehicle 124 from one or more sources, such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , or some other remote server, via a wireless communications network 116 .
- the kiosk 102 may receive replenishment from the vehicle 124 for the one or more supplies and/or food items.
- the method 1000 terminates, for example until invoked again.
- the method 1000 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 11 shows a method 1100 of operating a multi-modal food preparation system 100 in which instructions are transmitted to a kiosk 102 to travel to a replenishment location 144 , according to at least one illustrated implementation.
- the method 1100 can, for example, be executed by one or more processor-based devices, for instance the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , and starts at 1102 .
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may determine an amount of time to replenish the kiosk 102 with one or more supplies and/or food items. Such a determination of an estimated time to replenish one or more supplies and/or food items at the kiosk 102 may be based, at least in part, on the time to transfer the one or supplies and/or the instances of food items 106 from the vehicle 124 to the kiosk 102 , and/or on the amount of time for the vehicle 124 to travel to the location of the kiosk 102 .
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may determine the amount of time before the kiosk 102 exhausts one or more supplies and/or food items.
- Such a determination may be based one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106 ) currently available at the kiosk 102 , the number of instances of food items 106 the kiosk has vended, the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106 , the rate at which the kiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by the kiosk 102 , and/or a signal received from the kiosk 102 indicating a need for replenishment of one or more supplies.
- the amount of supplies e.g., instances of food items 106
- the kiosk has vended the rate at which the kiosk 102 is using the supplies and/or vending instances of food items 106
- the rate at which the kiosk 102 is expected to use the supplies in the future
- pending orders to be fulfilled by the kiosk 102 pending orders to be fulfilled by the kiosk 102
- a signal received from the kiosk 102 indicating a need for replenish
- the determination of when the kiosk 102 may exhaust one or more supplied and/or food items may take into account information regarding the sales of instances of food items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather.
- a processor-enabled device such as, for example, the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 , may generate instructions to the kiosk 102 to cause the kiosk 102 to travel to the replenishment location 144 .
- a building e.g., a warehouse
- a vehicle e.g., a delivery vehicle
- the instructions received by the kiosk 102 may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that the kiosk 102 should take.
- the instructions may be transmitted to the kiosk 102 from one or more sources, such as, for example, the remote order processing system 208 , the replenishment server 126 , and/or some other remote server, via a wireless communications network 116 .
- the kiosk 102 may proceed along a replenishment route (e.g., the second replenishment route 132 b ) as indicated by the instructions to travel to the replenishment location 144 .
- the replenishment route may be determined by the remote order processing system 208 , replenishment server 126 , and/or by a third-party server, and transmitted to the kiosk 102 .
- the method 1100 terminates, for example until invoked again.
- the method 1100 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process.
- FIG. 12 shows a schematic, block diagram of a processor-enabled device 1200 , such as the control system 218 , the remote order processing system 208 , and/or the replenishment server 126 .
- the processor-enabled device 1200 may take the form of any current or future developed computing system capable of executing one or more instruction sets.
- the processor-enabled device 1200 includes a processing unit 1202 , a system memory 1204 , and a system bus 1206 that communicably couples various system components including the system memory 1204 to the processing unit 1202 .
- the processor-enabled device 1200 will at times be referred to in the singular herein, but this is not intended to limit the embodiments to a single system, since in certain embodiments, there will be more than one system or other networked computing device involved.
- Non-limiting examples of commercially available systems include, but are not limited to, an Atom, Pentium, or 80 ⁇ 86 architecture microprocessor as offered by Intel Corporation, a Snapdragon processor as offered by Qualcomm, Inc., a PowerPC microprocessor as offered by IBM, a Sparc microprocessor as offered by Sun Microsystems, Inc., a PA-RISC series microprocessor as offered by Hewlett-Packard Company, an A6 or A8 series processor as offered by Apple Inc., or a 68xxx series microprocessor as offered by Motorola Corporation.
- the processing unit 1202 may be any logic processing unit, such as one or more central processing units (CPUs), microprocessors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), programmable logic controllers (PLCs), etc.
- CPUs central processing units
- DSPs digital signal processors
- ASICs application-specific integrated circuits
- FPGAs field programmable gate arrays
- PLCs programmable logic controllers
- the system bus 1206 can employ any known bus structures or architectures, including a memory bus with memory controller, a peripheral bus, and a local bus.
- the system memory 1204 includes read-only memory (“ROM”) 1208 and random access memory (“RAM”) 1210 .
- ROM read-only memory
- RAM random access memory
- a basic input/output system (“BIOS”) 1212 which can form part of the ROM 1208 , contains basic routines that help transfer information between elements within the processor-enabled device 1200 , such as during start-up. Some embodiments may employ separate buses for data, instructions and power.
- the processor-enabled device 1200 also includes one or more internal nontransitory storage systems 1214 .
- Such internal nontransitory storage systems 1214 may include, but are not limited to, any current or future developed persistent storage device 1216 .
- Such persistent storage devices 1216 may include, without limitation, magnetic storage devices such as hard disc drives, electromagnetic storage devices such as memristors, molecular storage devices, quantum storage devices, electrostatic storage devices such as solid state drives, and the like.
- the processor-enabled device 1200 may also include one or more optional removable nontransitory storage systems 1218 .
- Such removable nontransitory storage systems 1218 may include, but are not limited to, any current or future developed removable persistent storage device 1220 .
- Such removable persistent storage devices 1220 may include, without limitation, magnetic storage devices, electromagnetic storage devices such as memristors, molecular storage devices, quantum storage devices, and electrostatic storage devices such as secure digital (“SD”) drives, USB drives, memory sticks, or the like.
- SD secure digital
- the one or more internal nontransitory storage systems 1214 and the one or more optional removable nontransitory storage systems 1218 communicate with the processing unit 1202 via the system bus 1206 .
- the one or more internal nontransitory storage systems 1214 and the one or more optional removable nontransitory storage systems 1218 may include interfaces or device controllers (not shown) communicably coupled between nontransitory storage system and the system bus 1206 , as is known by those skilled in the relevant art.
- the nontransitory storage systems 1214 , 1218 , and their associated storage devices 1216 , 1220 provide nonvolatile storage of computer-readable instructions, data structures, program modules and other data for the processor-enabled device 1200 .
- Those skilled in the relevant art will appreciate that other types of storage devices may be employed to store digital data accessible by a computer, such as magnetic cassettes, flash memory cards, RAMs, ROMs, smart cards, etc.
- Program modules can be stored in the system memory 1204 , such as an operating system 1222 , one or more application programs 1224 , other programs or modules 1226 , drivers 1228 and program data 1230 .
- the application programs 1224 may include, for example, one or more machine executable instruction sets (i.e., mode module 1224 a ) capable of providing instructions to one or more kiosks 102 to transition between the kiosk vending mode 110 , the constellation mode 120 , and/or the cook en route mode 130 .
- the application programs 1224 may further include one or more machine executable instructions sets (i.e., cooking module 1224 b ) capable of outputting queuing and cooking instructions to the kiosks 102 and/or delivery vehicles 140 .
- the application programs 1224 may include one or more machine executable instruction sets (i.e., replenishment module 1224 c ) capable of determining a time and/or time range during which one or more supplies and/or food items in a kiosk 102 may be replenished by a vehicle 124 and/or by traveling to a replenishment location 144 .
- replenishment module 1224 c machine executable instruction sets
- the processor-enabled device 1200 operates in an environment using one or more of the network interfaces 1232 to optionally communicably couple to one or more remote computers, servers, display devices, such as the remote order processing system 208 , the replenishment server 126 , and/or other devices via one or more communications channels, for example, one or more networks such as the communications network 234 .
- These logical connections may facilitate any known method of permitting computers to communicate, such as through one or more LANs and/or WANs.
- Such networking environments are well known in wired and wireless enterprise-wide computer networks, intranets, extranets, and the Internet.
- FIGS. 13A-13C show a vending kiosk 1300 , according to at least one illustrated embodiment.
- the vending kiosk 1300 includes a housing 1302 and a plurality of vending compartments 1304 a , 1304 b - 1304 n (twenty-four shown, three called out, collectively 1304 ).
- the vending kiosk 1300 may be fixed at a location, for instance physically secured to the ground or a building or other structure, or secured by weight.
- the vending kiosk 1300 may be mobile, having one or more wheels, tracks, treads, etc., and propulsion source (e.g., electric motor, internal combustion engine), for example as in the previously described implementations.
- propulsion source e.g., electric motor, internal combustion engine
- Each of the vending compartments 1304 has an associated front or customer-facing door 1306 and a back or service door 1308 .
- the front or customer-facing door 1306 is readily accessible by a customer from an exterior of the vending kiosk 1300 .
- the back or service door 1308 does not need to be, and typically is not, readily accessible by a customer from an exterior 1309 of the vending kiosk 1300 , although it may be possible for the customer to touch the back or service door 1308 once the customer gains access to an interior 1310 (only one shown in FIG. 13A ) of the respective compartment.
- the front or customer-facing doors 1306 are operable to selectively provide and deny access to an interior 1310 of the vending compartments 1304 from the exterior 1309 of the vending kiosk 1300 .
- the rear or service doors 1306 are operable to selectively provide and deny access to an interior 1310 of the vending compartments 1304 from an exterior thereof, and typically from an interior 1312 ( FIG. 13C ) of the vending kiosk 1300 .
- the vending kiosk 1300 includes a customer or user interface 1314 , typically accessible from the exterior 1309 of the vending kiosk 1300 .
- the customer or user interface 1314 provides input and, or output to customers or other users.
- the customer or user interface 1314 may include any one or more of a display 1314 a , keypad or keyboard 1314 b , near field communications radio and antenna 1314 c , magnetic stripe reader or chip reader 1314 d , camera 1314 e , bill validator, coin slot, etc.
- a display 1314 a keypad or keyboard 1314 b
- near field communications radio and antenna 1314 c near field communications radio and antenna 1314 c
- magnetic stripe reader or chip reader 1314 d magnetic stripe reader or chip reader 1314 d
- camera 1314 e bill validator, coin slot, etc.
- the near field communications radio and antenna 1314 c may detect and recognize an electronic device (e.g., smartphone) associated with a customer who previously placed an order, and who has arrived at the vending kiosk 1300 to pick up the order. Also for example, the near field communications radio and antenna 1314 c may interact with an electronic device (e.g., smartphone) to receive an order and then to complete a purchase transaction with a customer who is currently at the vending kiosk 1300 to place the order. Also for example, the display 1314 a (e.g., via a graphical user interface) and, or keypad or keyboard 1314 b may be used to receive an order, or to receive information that identifies a customer who has arrived at the vending kiosk 1300 to pick up a previously placed order.
- an electronic device e.g., smartphone
- the near field communications radio and antenna 1314 c may interact with an electronic device (e.g., smartphone) to receive an order and then to complete a purchase transaction with a customer who is currently at the vending kiosk 1300 to place
- the customer may, for instance, enter an identifier or PIN.
- the camera 1314 e may capture one or more images to implement a purchase transaction or identify a customer who has arrived at the vending kiosk 1300 to pick up a previously placed order.
- the camera may, for instance, capture an image of a machine-readable symbol (e.g., two-dimensional symbol, barcode symbol) displayed via a display of an electronic device (e.g., smartphone) associated with the customer who placed the order.
- the camera may, also for instance, capture an image of a face or iris of the customer who placed the order, and perform facial or iris recognition for a customer who has arrived at the vending kiosk 1300 to pick up.
- Other forms of biometric authentication can be employed via various sensors, for instance finger-print recognition.
- the magnetic stripe reader or chip reader 1314 d may read information from a financial medium (e.g., credit card, debit card, gift card) to implement a purchase transaction.
- a financial medium e.g., credit card, debit card, gift card
- the bill or currency validator or coin slot (not shown) may be used to implement a purchase transaction.
- the vending kiosk 1300 includes an access (e.g., supply doorway 1316 and supply door 1318 ) that provide access to load items (e.g., prepared food items, ingredients, other items) into the vending kiosk 1300 .
- the supply door 1318 may, for example take the form of a rollup door, as illustrated, or may take any other form of door, for instance a door that pivots on hinges, or a door that slides.
- a rollup door advantageously reduces the overall footprint required for the vending kiosk 1300 and servicing of the same.
- a supply rack 1320 may be used to load items (e.g., prepared food items, ingredients, other items) into the vending kiosk 1300 .
- the supply doorway 1316 may be sized to receive all or a portion of the supply rack 1320 therethrough, for instance to position the supply rack 1320 in a refrigerated supply area 1322 ( FIG. 3C ) of the vending kiosk 1300 .
- the supply rack 1320 may include one or more, compartments or trays 1322 (only one called out), each of which can hold one or more prepared food items, ingredients, other items.
- the compartments or trays 1322 may, or may not, have respective doorways and, or doors, which are operable to selectively provide and deny access to an interior of the compartment or trays 1322 from an exterior thereof.
- the supply rack 1320 may, in at least some implementations, itself provide a refrigerated interior environment, for example having one or more compressors or air conditioners, and walls, floor and ceiling of the supply rack may be thermally insulated.
- the supply rack 1320 may at least in all or in part, rely on an air condition environment of the vending kiosk 1300 to cool the contents of the supply rack 1320 .
- each compartment or tray may include a conveyor (e.g., conveyor belt) 1324 (only one called out), peel, paddle, or pusher bar, and an actuator (e.g., electric motor or solenoid) drivingly coupled with, or without a transmission, to cause movement of the conveyor (e.g., conveyor belt) 1324 , peel, paddle, or pusher bar.
- a conveyor e.g., conveyor belt
- an actuator e.g., electric motor or solenoid
- the vending kiosk 1300 may include one or more input transport elevators 1326 that are operable to transport the contents (e.g., prepared food items, ingredients, other items) from the compartments or trays 1322 of the supply rack 1320 to one or more cooking units (e.g., ovens) 1328 ( FIG. 13C ).
- contents e.g., prepared food items, ingredients, other items
- cooking units e.g., ovens
- the input transport elevators 1326 may include one or more conveyors 1330 (e.g., conveyor belt 1330 a and electric motor 1330 b drivingly coupled to the conveyor belt 1330 a ), peels, trays, etc., operable to transfer the contents of the compartments or trays 1322 of the supply rack 1320 to the cooking unit(s) (e.g., oven(s)) 1328 , for example along a first axis (e.g., horizontal axis) 1332 .
- a first axis e.g., horizontal axis
- the input transport elevators 1326 may include one or more conveyors 1334 are positionable to closely locate or position a first end thereof proximate or adjacent the compartment or trays 1322 of the supply rack 1320 or proximate or adjacent conveyors or ejection mechanisms 1324 of the supply rack 1320 .
- the actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred.
- the input transport elevators 1326 may include one or more rails and, or, transmissions (e.g., chain drive, belt drive) 1334 a and motors 1334 b coupled to move the conveyor(s) 1330 a along a second axis (e.g., vertical axis) 1336 , different from the first axis 1332 .
- the vending kiosk 1300 or the supply rack 1320 may include one or more robotic appendages and actuators (e.g., electric motor or solenoid) operable to transport the contents (e.g., prepared food items, ingredients, other items) from the compartments or trays 1322 of the supply rack 1320 to one or more cooking units (e.g., ovens) 1328 .
- the vending kiosk 1300 includes the one or more cooking units 1328 , for instance one or more ovens.
- the cooking unit(s) 1328 may take any of a variety of forms.
- the term “cooking units” 1328 includes any device for the partial or complete cooking of one or more food products. Additionally, while the term “oven” may be used interchangeably with the term “cooking unit” herein, such usage should not limit the applicability of the systems and methods described herein to only foods which can be prepared in an oven.
- one or more burners can be considered a “cooking unit” that is included within the scope of the systems, methods, and apparatuses described herein.
- Some implementations may employ other types of food preparation units in addition to, or in place of cooking units, for example other types of equipment used to prepare food items, such as equipment related to cooled or chilled foods, such as may be used to prepare smoothies, frozen yogurt, ice cream, and beverages (e.g., fountain beverages).
- the food preparation unit may be able to control more than temperature.
- some food preparation units may control pressure and/or humidity.
- some food preparation units may control airflow therein, thus able to operate in a convective cooking mode if desired, for instance to decrease cooking time.
- the cooking units 1328 are conveyor ovens with a conveyor 1328 a that provides a transport path 1328 b through a cooking chamber 1328 c .
- the cooking unit 1328 is open at opposed ends of the transport path 1328 b .
- the cooking units 1328 includes one or more heating elements 1328 d , which can take any of a large variety of forms, and can be located in any of a large variety of locations.
- the one or more conveyors 1320 a of the input transport elevators 1326 are positionable to closely locate or position a second end thereof proximate or adjacent the cooking units 1328 or proximate or adjacent conveyors or ingress mechanisms 1328 a of the cooking units 1328 .
- the actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred.
- the vending kiosk 1300 may include one or more output transport elevators 1330 that are operable to transport the contents (e.g., prepared food items, ingredients, other items) from the one or more cooking units (e.g., ovens) 1328 to the compartments 1304 of the vending kiosk 1300 .
- contents e.g., prepared food items, ingredients, other items
- cooking units e.g., ovens
- the output transport elevators 1330 may include one or more conveyors (e.g., conveyor belt 1330 a and electric motor 1330 b drivingly coupled to the conveyor belt 1330 a ), peels, trays, etc., operable to transfer the contents of the cooking unit(s) (e.g., oven(s)) 1328 to the compartments 1304 of the vending kiosk 1300 , for example along a first axis (e.g., horizontal axis) 1332 .
- a first axis e.g., horizontal axis
- the output transport elevators 1330 may include one or more rails and, or, transmissions (e.g., chain drive, belt drive) 1330 c and motors 1330 d coupled to move the conveyor(s) 1330 a along a second axis (e.g., vertical axis) 1334 , different from the first axis 1332 .
- the output transport elevators 1330 may include one or more conveyors 1330 a that are positionable to closely locate or position a first end thereof proximate or adjacent the cooking units 1328 or proximate or adjacent conveyors or ingress mechanisms 1328 a of the cooking units 1328 .
- the actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred.
- the one or more conveyors 1330 a of the output transport elevators 1330 are positionable to closely locate or position a second end thereof proximate or adjacent the compartments 1304 of the vending kiosk 1300 or adjacent conveyors or ingress mechanisms, if any, of the compartments 1304 of the vending kiosk 1300 .
- the vending kiosk 1300 or the supply rack 1320 may include one or more robotic appendages and actuators (e.g., electric motor or solenoid) operable to transport the contents (e.g., prepared food items, ingredients, other items) from the one or more cooking units (e.g., ovens) 1328 to the compartments 1304 of the vending kiosk 1300 .
- the vending kiosk 1300 can include one or more exhaust ducts, and optionally fans, operable to exhaust smoke and, or, waste heat generated by the cooking units 1328 from the vending kiosk 1300 .
- the vending kiosk 1300 may include thermal insulation 1336 , for example separating the cooking units from the air conditioned area.
- the thermal insulation 1336 may surround a portion or all of the air conditioned area 1322 .
- Thermal insulation 1336 may additionally, or alternatively surround all or a portion of the cooking units 1328 .
- Thermal insulation 1336 may additionally, or alternatively surround all or a portion of the compartments 1304 of the vending kiosk 1300 .
- the thermal insulation 1336 may take a variety of forms including, for example, fiberglass batten, vacuum.
- the vending kiosk 1300 may include a refrigeration system 1338 , for example one or more compressors, reservoirs, condensation coil (collectively 1338 a ) and, or heat exchanger.
- the refrigeration system may include one or more ducts 1338 b coupled to dispense cooled or refrigerated air into the air conditioned or refrigerated area 1322 .
- the refrigeration system 1338 may include one or more ducts (not shown) coupled to dispense warm or waste air into the exterior 1309 ( FIG. 13A ) from the vending kiosk 1300 .
- FIGS. 13A-13C advantageously isolates the compartments 1304 of the vending kiosk 1300 from the cooking units 1328 .
- Such can be a significant improvement in safety, preventing customers from accidently coming into contact with hot surfaces of a cooking unit (e.g., oven) 1328 .
- one or more surfaces of the compartments 1304 of the vending kiosk 1300 may be thermally insulated from the cooking unit(s) 1328 to ensure that the portions of the compartments 1304 that a customer or other user might touch will be sufficiently cool as to avoid damage to the skin or even avoid damage to garments worn by the customer or other user.
- the vending kiosk can include of a first set of latches or locks 1340 (only one latch or lock called out) that selectively latch/unlatch or lock/unlock the front or customer-facing door 1306 and a second set of latches or locks 1342 (only one latch or lock called out) that selectively latch/unlatch or lock/unlock the back or service door 1308 .
- the latches or locks 1340 , 1342 may, for example, take the form of pins, hooks, rods, magnets, and complimentary apertures and actuators (e.g., solenoids, r electric motors, electromagnets, relays) coupled to drive the pins, hooks, rods, or magnets.
- the vending kiosk 1300 can include one or more hardware processor-based control systems 1344 (e.g., circuitry, integrated circuit) of the vending kiosk 1300 , which can execute logic or processor-executable instructions.
- the processor-based control system 1344 can include one or more processors, for example one or more of: one or more microprocessors 1344 a with one or more cores, one or more microcontrollers, one or more application specific integrated circuits (ASICs), one or more field programmable gate arrays (FPGAs), one or more graphic processor units 1344 b , etc.
- the processor-based control system 1344 can include one or more computer- or processor-readable media (e.g., volatile memory, non-volatile memory, spinning media such as magnetic hard disks, optical disks), for example one or more of: one or more read only memories (ROM) 1344 c , one or more random access memories (RAM) 1344 d , one or more Flash memories 1344 e , etc.
- the processor-based control system 1344 can include one or more motor controllers 1344 f , operable to convert instructions from the processors 1344 a , 1344 b into signals to drive one or more motors or solenoids.
- the processor-based control system 1344 can include one or more motor controllers 1344 g , operable to convert instructions from the processors 1344 a , 1344 b into signals to drive one or more latches or locks (e.g., solenoids).
- the processor-based control system 1344 can include one or more communications interfaces 1344 h , for example one or more radios and associated antennas, and, or hardwired communications ports, to provide communications between the vending kiosk 1300 and devices external therefrom.
- the vending kiosk 1300 is operable to ensure that the front or customer-facing door 1306 and any given vending compartment 1304 is only unlatched or unlocked or opened when the back or service door 1308 or the same respective vending compartment 1304 is latched, locked, or closed. This can ensure that a customer or other user cannot reach into the area in which the cooking units 1328 (e.g., ovens), or even into the area in which the output elevator 1330 is positioned, from an exterior 1309 ( FIG. 13A ) of the vending kiosk 1300 .
- the cooking units 1328 e.g., ovens
- the vending kiosk 1300 for example the hardware processor-based control system 1344 (e.g., circuitry, integrated circuit) of the vending kiosk 1300 can execute logic that checks a state (e.g., represented via a flag stored in a memory or register) of a latch or lock 1342 for the back or service door 1308 of a given vending compartment 1304 , and only unlatches, unlocks, or opens the latch or lock 1340 of the front or customer-facing door 1306 of the given vending compartment 1304 if the state of the back or service door 1308 or associated latch or lock 1342 for the given vending compartment 1304 is latched, locked or closed.
- a state e.g., represented via a flag stored in a memory or register
- the vending kiosk 1300 can include one or more sensors that detect various conditions or states or positions of the front or customer-facing doors 1306 , back or service doors 1308 , and, or latches or locks 1340 associated with the front or customer-facing doors 1306 and, or latches or locks 1342 associated with the back or service doors 1308 , or even with the interiors of the compartments.
- one or more sensors can detect whether a door, latch or lock is locked, latched, closed, or alternatively unlatched, unlocked or open.
- one or more sensors can detect whether a given compartment is empty or full, or unoccupied or occupied.
- one or more sensors can detect whether a body part is in the compartment, touching a wall or door, or is proximate the door.
- Suitable sensors include contact switches 1346 a (only two shown, only one called out), image sensors (e.g., digital cameras) 1346 b , 1346 c , passive infrared motion sensors 1346 d (only one called out), Reed switches, weight sensors or load cells 1346 e (only one called out), metal detectors 1346 g , and, or, temperature sensors or thermocouples 1346 f (only one called out).
- the vending kiosk 1300 for example a hardware processor (e.g., circuitry, integrated circuit) of the vending kiosk 1300 , can execute logic that unlatches, unlocks, or opens the front or customer-facing door 1306 of a given vending compartment 1304 if all of a set of conditions are met.
- a baseline condition may be that the back or service door 1308 is latched, locked or closed.
- An additional condition may be that the vending compartment 1304 contains a food item.
- An additional condition in addition to one or more of the above, may be that a customer or transaction has been recognized, for example via input of a code or personal identification number (PIN) which is verified, receipt or detection of biometric data (e.g., fingerprint, iris scan, facial scan) which is verified, a pairing with an electronic device or recognition thereof (e.g., exchange of a one-time use token).
- An additional condition in addition to one or more of the above, may be that the food item in a given vending compartment 1304 is sufficiently cool for the customer to handle such without causing bodily harm.
- An additional condition in addition to one or more of the above, may be that the front or customer-facing door 1306 and, or interior surfaces of the given vending compartment 1304 are sufficiently cool for the customer to come into contact with such without resulting in bodily harm.
- An additional condition in addition to one or more of the above, may be that there is sufficient clearance for the front or customer-facing door 1306 to open.
- An additional condition in addition to one or more of the above, may be that there is sufficient clearance for the back or service door 1308 to open.
- FIG. 14 shows a set or gang 1428 of cooking units (e.g., ovens) 1428 a - 1428 f according to at least one illustrated embodiment.
- the cooking units (e.g., ovens) 1428 a - 1428 f are suitable for use in the vending kiosk 1300 of FIGS. 13A-13C .
- Each cooking unit 1428 a - 1428 f may include a housing 1450 (one called out), and a heating element 1452 (one called out).
- the heating element 1452 can take any of a large variety of forms, for instance resistance heating elements driven via electrical current, gas heating elements, inductive heating elements, etc.
- the cooking units 1428 a - 1428 f are conveyor ovens with a conveyor 1454 (only one called out) that provides a transport path through a cooking chamber 1456 (only one called out).
- the conveyor oven is open at opposed ends of the transport path. While shown ganged together, the cooking units (only one called out) can in some implementations be separate from each other, and even spaced apart from each other.
- FIG. 15 shows a cooking unit (e.g., an oven) 1528 and transmission 1560 , where the cooking unit 1528 is translatable along two different axes 1562 , 1564 according to at least one illustrated embodiment.
- the cooking units (e.g., ovens) 1528 are suitable for use in the vending kiosk 1300 of FIGS. 13A-13C .
- the transmission 1560 may include a first transmission operable to move the cooking unit along a first axis (e.g., horizontal axis).
- the first transmission may include one or more supports, drive belts, chains, pulleys, cables, rods, rails, wheels, gears (collectively 1560 a ), actuators 1560 b (e.g., electric motor, electric stepper motor, solenoid).
- the transmission 1560 may include a second transmission operable to move the cooking unit 1528 along a second axis (e.g., vertical axis) 1562 , different from the first axis 1562 .
- the second transmission may include one or more supports, drive belts, chains, pulleys, cables, rods, rails, wheels, gears (collectively 1560 c ), actuators 1560 d (e.g., electric motor, electric stepper motor, solenoid).
- the second transmission may be coupled to move the first transmission, and hence the cooking unit 1528 that is also moved by the first transmission. While illustrated as a single cooling unit 1528 , the transmission can move one, two or even more cooking units as a set, group, or gang of cooking units 1428 ( FIG. 14 ).
- FIGS. 16A-16B show a vending compartment 1600 at four successive periods of time or instances, according to at least one illustrated implementation.
- the vending compartment 1600 is suitable for use in the vending kiosks of various implementations described herein.
- the vending compartment 1600 can be used with any implementation of FIGS. 1A-1C, 2, 3A, 4A, 4B .
- the vending compartment 1600 can be used with any implementation of FIGS. 13A-13C , and may allow the omission of one or more elevators (e.g., output transport elevators 1330 ) or other conveyors.
- Any vending kiosk can include one or more of the vending compartment 1600 , for instance organized or structured in a two-dimensional array.
- Each vending compartment 1600 includes a first receptacle 1602 and a second receptacle 1604 .
- the first receptacle 1602 comprises at least one wall 1606 that at least partially delimits an interior 1608 of the first receptacle 1602 .
- a front 1610 of the first receptacle 1602 has a front opening 1612 that provides access into the interior 1608 of the first receptacle 1602 from the front 1610 of the first receptacle 1602 .
- the first receptacle 1602 has a rear 1614 with at least a rear opening 1616 ( FIG. 18 ) that provides access into the interior 1608 of the first receptacle 1602 from the rear 1614 of the first receptacle 1602 .
- the second receptacle 1604 comprises at least one wall 1622 that at least partially delimits an interior 1624 of the second receptacle 1604 .
- the second receptacle 1604 has a front 1626 with a front opening 1628 that provides access into the interior 1624 of the second receptacle 1604 from the front 1628 of the second receptacle 1604 .
- the second receptacle 1604 has a top 1630 with a top opening 1632 that provides access into the interior 1624 of the second receptacle 1604 from the top 1630 of the second receptacle 1604 .
- the second receptacle 1604 has a moveable tray 1634 that is moveable with respect to the at least one wall 1622 of the second receptacle 1604 between a raised position 1636 ( FIG. 16A ) and a lowered position 1638 ( FIGS. 16C and 16D ).
- raised position 1636 FIG. 16A
- the tray 1634 is at least proximate the top 1630 of the second receptacle 1604 , allowing an item (e.g., food item, prepared food item) to be transferred to the tray 1634 .
- the tray 1634 In the lowered position 1638 ( FIGS. 16C and 16D ) the tray 1634 is at least proximate a bottom 1640 ( FIG. 16A ) of the second receptacle 1604 , which vertically positions the item (e.g., food item, prepared food item) to be movable into the interior 1608 of the first receptacle 1604 .
- the second receptacle 1604 is moveable with respect to the first receptacle 1602 between a withdrawn position 1642 ( FIG. 16A-16C ) and an inserted position 1644 ( FIG. 16D ).
- the second receptacle 1604 predominately extends into the interior 1698 of the first receptacle 1602 with the front opening 1628 of the second receptacle 1604 at least proximate the front opening 1612 of the first receptacle 1602 , positioning the item (e.g., food item, prepared food item) on the tray 1634 to be retrievable from the interior 1608 of the first receptacle 1602 by a customer or other user.
- the item e.g., food item, prepared food item
- the second receptacle 1604 In the withdrawn position 1642 ( FIG. 16A ) the second receptacle 1604 is predominately withdrawn from the interior 1608 of the first receptacle 1602 with the front opening 1628 of the second receptacle 1604 spaced inwardly away from the front opening 1612 of the first receptacle 1602 as compared to the inserted position 1644 .
- FIG. 17 illustrates that each vending compartment 1600 any include, or may be coupled to, at least one horizontal transmission 1702 operable to move the second receptacles 1604 ( FIGS. 16A-16D ) between the inserted and the withdrawn positions 1644 , 1642 .
- the horizontal transmission 1702 may include a rack 1702 a and pinion 1702 b , gears, rails, wheels, bearings, drive belt, toothed drive belt, cable, and an actuator (e.g., electric motor, stepper motor 1702 c , solenoid, pneumatic or hydraulic piston and cylinder along with reservoir of fluid and valves).
- an actuator e.g., electric motor, stepper motor 1702 c , solenoid, pneumatic or hydraulic piston and cylinder along with reservoir of fluid and valves.
- each vending compartment 1600 may include, or may be coupled to, at least one vertical transmission 1704 operable to move the trays 1634 ( FIGS. 16A-16D ) between the raised and the lowered positions 1636 , 1638 .
- the vertical transmission 1704 may include a rack and pinion, gears, rails, wheels, bearings, drive belt 1704 a , 1704 b , toothed drive belt, cable, pulleys 1704 c , 1704 d and an actuator (e.g., electric motor 1704 e , stepper motor, solenoid, pneumatic or hydraulic piston and cylinder along with reservoir of fluid and valves).
- FIG. 18 shows a vending kiosk 1800 that includes a plurality of vending compartments 1600 a - 1600 d (only four shown, collectively 1600 ), according to at least one illustrated implementation. Many of the components are similar, or even identical, to components and structures discussed with reference to FIGS. 13A-13B . Similar or identical elements are identified in FIG. 18 with the same reference numbers as in FIG. 13A . Only some of the significant differences are given are discussed below and new reference numbers.
- the vending kiosk 1800 includes a plurality of customer-facing doors 1306 a - 1396 d (only four shown, collectively 1306 ), each of the customer-facing doors 1306 movable between a first position (see customer-facing doors 1306 b - 1306 d ) which prevents access to the interior of the first and the second receptacles 1602 , 1604 of a respective one of the vending compartments 1600 from an exterior of the vending kiosk 1800 and a second position (see customer-facing door 1306 a ) which allows access to the interior 1608 , 1624 of the first and the second receptacles 1602 , 1604 , respectively, of the respective one of the vending compartments 1600 from the exterior of the vending kiosk 1800 ( FIG. 18 ).
- a first plurality of latches 428 , 432 ( FIGS. 4A, 4B ), 1340 ( FIG. 13C ) are operable to alternatively latch and unlatch respective ones of the customer-facing doors 1306 .
- the customer-facing doors 1306 may be manually opened by a customer.
- the customer-facing doors 1306 may be spring-loaded and open automatically in response to unlatching.
- a first plurality of motors or solenoids 1850 (one called out in FIG. 18 ) operable to open, close, or alternatively open and close respective ones of the customer-facing doors 1306 .
- an actuator e.g., stepper motor or solenoid
- an actuator e.g., stepper motor or solenoid
- the stepper motor or solenoid 1850 may resist manual opening (e.g., via inertia, one-way clutch, relay), essentially locking the customer-facing doors 1306 when closed.
- the at least one processor-based control system 1344 is communicatively coupled to control the customer-facing doors 1306 and/or control the horizontal and vertical 1702 , 1704 , for example by controlling the latches 428 , 432 ( FIGS. 4A, 4B ), 1340 ( FIG. 13C ), the motors or solenoids 1850 in response to any one, more or a combination of conditions or states as set out below.
- the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment only if the respective second receptacle 1604 is in the inserted position.
- the at least one processor-based control system 1344 controls the horizontal transmission 1702 ( FIG. 17 ) to move the second receptacle 1604 from the withdrawn 1642 to the inserted position 1644 only if the tray 1634 is in the lowered position 1638 . Additionally or alternatively, the at least one processor-based control system 1344 controls the vertical transmission 1704 ( FIG. 17 ) to move the tray 1634 from the raised position 1636 to the lowered position 1642 if the tray holds an item.
- the at least one processor-based control system 1344 may use information or data from one or more sensors to determine whether there is an item present on the tray 1634 , and, or whether the item, if present, has one or more characteristics consistent with, and not inconsistent with, a type of item that is expected to be in the tray 1634 .
- a weight sensor or load cell can provide information that represents a weight of the tray 1634
- a tare weight can be used to determine i) whether an item is carried by the tray 1634 and, or ii) a weight of that item.
- the at least one processor-based control system 1344 can compare the weight of the tray 1634 or a difference between total weight and a tare weight with an expected weight, determining whether the item is present and is within a range of an expected weight (e.g., weight of a fully loaded pizza).
- an image sensor e.g., digital camera
- the at least one processor-based control system 1344 can determine i) whether an item is carried by the tray 1634 and, or whether an item carried by the tray 1634 resembles a physical appearance of an expected item. Such can even be used to maintain quality control, for example assessing a distribution of toppings on a pizza, or a level of cooking.
- a PIR motion detector or a height detector can be used to assess the contents of an interior of the vending compartment.
- a simple electronic eye e.g., LED and photo-diode pair
- the at least one processor-based control system 1344 controls the vertical transmission 1704 ( FIG. 17 ) to move the tray 1634 ( FIGS. 16A-16D ) from the lowered position 1638 to raised position 1636 after an item has been removed from the respective vending compartment 1600 .
- the at least one processor-based control system 1344 controls the vertical transmission to move the tray 1634 from the lowered position 1638 to raised position 1636 in response to a respective customer-facing door 1306 closing after an item has been removed from the respective vending compartment 1600 .
- the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if a customer or a transaction has been recognized. For instance, the at least one processor-based control system 1344 sends signals that unlatches or opens the customer-facing door 1306 of the respective vending compartment only if an input code is verified. Also for instance, the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if detected biometric data has been verified. Also for instance, the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if a pairing with an electronic device or recognition thereof occurs.
- the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if the respective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm. Additionally or alternatively, the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if a food item in the respective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm.
- the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if all of the interior surfaces of the respective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm.
- the at least one processor-based control system 1344 unlatches or opens the customer-facing door 1306 of the respective vending compartment 1600 only if there is a sufficient clearance for the customer-facing door to open.
- the vending kiosk 1800 may include any one, two, more, or all of the sensors illustrated in FIGS. 13A-13C and described with respect thereto.
- logic or information can be stored on any computer readable medium for use by or in connection with any computer and/or processor related system or method.
- a memory is a computer readable medium that is an electronic, magnetic, optical, or other another physical device or means that contains or stores a computer and/or processor program.
- Logic and/or the information can be embodied in any computer readable medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions associated with logic and/or information.
- a “computer readable medium” can be any means that can store, communicate, propagate, or transport the program associated with logic and/or information for use by or in connection with the instruction execution system, apparatus, and/or device.
- the computer readable medium can be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, device, or propagation medium.
- the computer readable medium would include the following: an electrical connection having one or more wires, a portable computer diskette (magnetic, compact flash card, secure digital, or the like), a random access memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM, EEPROM, or Flash memory), an optical fiber, and a portable compact disc read-only memory (CDROM).
- a portable computer diskette magnetic, compact flash card, secure digital, or the like
- RAM random access memory
- ROM read-only memory
- EPROM erasable programmable read-only memory
- CDROM portable compact disc read-only memory
- the computer-readable medium could even be paper or another suitable medium upon which the program associated with logic and/or information is printed, as the program can be electronically captured, via for instance optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner if necessary, and then stored in memory.
- signal bearing media include, but are not limited to, the following: recordable type media such as floppy disks, hard disk drives, CD ROMs, digital tape, and computer memory; and transmission type media such as digital and analog communication links using TDM or IP based communication links (e.g., packet links).
Abstract
Kiosks, components, and methods are disclosed for preparing food to be vended to customers. The kiosk may be part of a multi-modal food distribution system in which the kiosk may operate in one or more various modes, including a kiosk vending mode, a constellation mode, and a cook en route mode to vend hot, prepared food to customers. The kiosks in the system may be configurable to change between each of the different modes depending upon information received by the system. The kiosk may be part of a kiosk-based food preparation system in which the kiosk vends prepared food items to customers. The kiosk may transmit information that may be used to provide replenishment to the kiosk. Such information may include the number of items vended, the number of items and/or supplies remaining, and/or a replenishment signal.
Description
- This description generally relates to food cooking, delivery, distribution and/or vending, for instance using a food distribution system employing one or more vending kiosks. In some implementations the vending kiosks can selectively operate in one of two or more modes of operation.
- Historically, consumers have had a choice when hot, prepared, food was desired. Some consumers would travel to a restaurant or other food establishment where such food would be prepared and consumed on the premises. Other consumers would travel to the restaurant or other food establishment, purchase hot, prepared, food and transport the food to an off-premises location, such as a home or picnic location for consumption. Yet other consumers ordered delivery of hot, prepared food, for consumption at home. Over time, the availability of delivery of hot, prepared, foods has increased and now plays a significant role in the marketplace. Delivery of such hot, prepared, foods was once considered the near exclusive purview of Chinese take-out and pizza parlors. However, today even convenience stores and “fast-food” purveyors such as franchised hamburger restaurants have taken to testing the delivery marketplace.
- The delivery of prepared foods traditionally occurs in several discrete acts. First, a consumer places an order for a particular food item with a restaurant or similar food establishment. The restaurant or food establishment prepares the food item or food product per the customer order. The prepared food item is packaged and delivered to the consumer's location. The inherent challenges in such a delivery method are numerous. In addition to the inevitable cooling that occurs while the hot food item is transported to the consumer, many foods may experience a commensurate breakdown in taste, texture, or consistency with the passage of time. For example, the French fries at the burger restaurant may be hot and crispy, but the same French fries will be cold, soggy, and limp by the time they make it home. To address such issues, some food suppliers make use of “hot bags,” “thermal packaging,” or similar insulated packaging, carriers, and/or food containers to retain at least a portion of the existing heat in the prepared food while in transit to the consumer. While such measures may be at least somewhat effective in retaining heat in the food during transit, such measures do little, if anything, to address issues with changes in food taste, texture, or consistency associated with the delay between the time the food item is prepared and the time the food item is actually consumed.
- Kiosks may be used to vend hot, prepared food items to customers. In some implementations, kiosks may be used to prepare and vend hot, prepared food items to customers. In some implementations, a kiosk may vend items to multiple customers while remaining stationary in a location when the kiosk is operating in a kiosk vending mode. As such, customers may travel to the location of the kiosk to retrieve food items that the customer has ordered. In some implementations, a kiosk may fulfill orders placed by customers by providing hot-prepared items to delivery vehicles to be delivered to the appropriate customer at a delivery destination. In some implementations, the kiosk may be self-propelled and may autonomously and/or semi-autonomously travel to one or more delivery destinations to deliver hot, prepared food items that have been ordered by customers.
- A method of operation of a multi-modal food preparation system may be summarized as including: in a kiosk vending mode: transmitting instructions to at least one kiosk that includes a number of food preparation units, the instructions which cause the at least one kiosk to accept orders for instances of food items and to vend the instances of food items directly to a customer to act as a combined cooking and vending kiosk; and in a constellation mode: transmitting information to the at least one kiosk to act as a hub, including information that specifies a plurality of orders for instances of food items to be prepared; and transmitting information to a number of vehicles to act as delivery vehicles, including routing information that routes the additional vehicles between the at least one kiosk that acts as the hub and a plurality of delivery destinations associated with respective ones of the orders.
- The method of operation may further include: transmitting information that causes the at least one kiosk to switch between the kiosk vending mode and the constellation mode. The method of operation may further include: in a cook en route mode: transmitting information to the at least one kiosk which transports a number of food preparation units to act as a combined cooking and delivery kiosk, the information including information that specifies a plurality of orders for instances of food items to be prepared including commands to control respective ones of the food preparation units for each of the instances of food items to be prepared, and the information further including destination information that specifies a destination to deliver the orders.
- A method of operation in a kiosk-based food vending system may be summarized as including: for each of a number of vending kiosks in respective locations, each of the vending kiosks having one or more heating elements selectively operable to at least one of warm or cook one or more instances of one or more types of food items: at least one of raising or maintaining a temperature of one or more instances of one or more types of food items; repeatedly vending one or more instances of one or more types of food items; transmitting information representative of at least one of: i) one or more instances of one or more types of food items that have been vended food items or ii) supplies of instances of one or more types of food items available at the respective kiosk, or iii) a need for replenishment; and receiving replenishment from a vehicle based at least on part on the transmitted information.
- The method of operation may further include: dispatching the vehicle to replenish the at least one vending kiosk based at least on part on the transmitted information. The method of operation may further include: dispatching the vehicle to replenish the at least one vending kiosk based at least on part on pending orders of food items at the at least one vending kiosk. The method of operation may further include: predicting an expected demand for instances of one or more types of food items; and dispatching the vehicle to replenish the at least one vending kiosk based at least on part on the predicted expected demand for instances of one or more types of food items. Predicting an expected demand for instances of one or more types of food items may include training at least one neural network with at least one set of training data that represents an actual demand for instances of one or more types of food items previously experienced at one or more locations. The at least one set of training data may include training data related to at least one of respective days of the week, special events, time of day, weather, and holidays. The method of operation may further include: determining an estimate time required to replenish at least one of the kiosks; determining an estimate time before the kiosk exhausts a supply of one or more instances of one or more types of food items; determining a time at which to dispatch the vehicle based on the estimate times such that there is sufficient time to replenish the at least one vending kiosk before the supply of one or more instances of one or more types of food items is exhausted; and dispatching the vehicle to replenish the at least one vending kiosk based on the determined time at which to dispatch the vehicle. The method of operation may further include: the one or more vending kiosks receiving from a remote order processing system one or more orders for one or more instances of one or more types of food items. The one or more vending kiosks may each have a respective point-of-sale system, and may further include: receiving one or more orders for one or more instances of one or more types of food items via the respective point-of-sale system of the kiosk. The one or more vending kiosks may each have a respective wireless communications system, and may further include: receiving directly from a customer processor-based communications device one or more orders for one or more instances of one or more types of food items via the respective wireless communication system of the one or more vending kiosks. At least one of raising or maintaining a temperature of one or more instances of one or more types of food items may be based at least on part on one or more of the received orders. The method may further include: determining a replenishment route to each of the number of vending kiosks to replenish food items; and dispatching the vehicle to replenish the at least one vending kiosk based on the determined replenishment route. The number of vending kiosks may include one or more self-propelled vending kiosks, and the method may further include: determining a respective route for each of the one or more self-propelled vending kiosks to travel to the respective destinations; and transmitting instructions to each of the one or more self-propelled vending kiosks to travel to the respective destinations.
- A method of operation in a kiosk-based food vending system may be summarized as including: for at least one vending kiosk in a respective location, the at least one vending kiosk having one or more heating elements selectively operable to at least one of warm or cook one or more instances of one or more types of food items: at least one of raising or maintaining a temperature of one or more instances of one or more types of food items; repeatedly dispensing one or more instances of one or more types of food items to one of one or more delivery vehicles; transmitting information representative of at least one of: i) one or more instances of one or more types of food items that have been vended food items or ii) supplies of instances of one or more types of food items available at the respective kiosk, or iii) a need for replenishment; and receiving replenishment from a replenishment vehicle based at least in part on the transmitted information.
- The method of operation may further include: dispatching the replenishment vehicle to replenish the at least one vending kiosk based at least on part on the transmitted information. The method of operation may further include: predicting an expected demand for instances of one or more types of food items; and dispatching the replenishment vehicle to replenish the at least one vending kiosk based at least on part on the predicted expected demand for instances of one or more types of food items. Predicting an expected demand for instances of one or more types of food items may include training at least one neural network with at least one set of training data that represents an actual demand for instances of one or more types of food items previously experienced at one or more locations. The at least one set of training data may include training data related to at least one of special events, respective days of the week, time of day, weather, and holidays. The method of operation may further include: determining an estimate time required to replenish at least one of the kiosks; determining an estimate time before the kiosk exhausts a supply of one or more instances of one or more types of food items; determining a time at which to dispatch the replenishment vehicle based on the estimate times such that there is sufficient time to replenish the at least one vending kiosk before the supply of one or more instances of one or more types of food items is exhausted; and dispatching the replenishment vehicle to replenish the at least one vending kiosk based on the determined time at which to dispatch the vehicle. The method of operation may further include: the one or more vending kiosks receiving from a remote order processing system one or more orders for one or more instances of one or more types of food items. The one or more vending kiosks may each have a respective point-of-sale system, and the method may further include: receiving one or more orders for one or more instances of one or more types of food items via the respective point-of-sale system of the kiosk; and dispensing one or more one or more instances of one or more types of food items directly to one or more customers. The one or more vending kiosks may each have a respective wireless communications system, and the method may further include: receiving directly from a customer processor-based communications device one or more orders for one or more instances of one or more types of food items via the respective wireless communication system of the one or more vending kiosks; and dispensing one or more one or more instances of one or more types of food items directly to one or more customers. At least one of raising or maintaining a temperature of one or more instances of one or more types of food items may be based at least on part on one or more of the received orders. The method of operation may further include: dispatching the one of one or more delivery vehicles to the at least one vending kiosk based at least in part on one or more of readiness of an order to be delivered by the delivery vehicle, of an estimated travel time from the at least one vending kiosk to a destination on a single destination delivery route, the destination associated with the order to be delivered, of an estimated travel time from the at least one vending kiosk to a destination on a multiple destination delivery route, the destination associated with the order to be delivered, and of a delivery time period, the delivery time period which provides a threshold time by which delivery of the order is to be completed.
- A method of operation of a multi-modal food preparation system in a kiosk mode may be summarized as including: distributing food items at a vending kiosk based upon orders received at the vending kiosk and upon orders received at a remote order processing system removed from the vending kiosk, in which the vending kiosk is positioned at a destination and remains stationary at the destination while distributing the food items; transmitting information to a remote replenishment processing system, the transmitted information including vending information related to the food items distributed by the vending kiosk over a defined period of time, the vending kiosk responsive to distribute the food items based upon orders received at the vending kiosk and upon orders received at a facility removed from the vending kiosk; and receiving additional food items at the vending kiosk, the additional food items to be distributed by the vending kiosk.
- The kiosk may be a self-propelled vending kiosk, and the method may further include: receiving instructions regarding a route for the self-propelled vending kiosk to travel to the vending destination; and traversing the route to the vending destination. Receiving the additional food items may include receiving instructions to travel to a replenishment location, the replenishment location different from the vending location.
- In the drawings, identical reference numbers identify similar elements or acts. The sizes and relative positions of elements in the drawings are not necessarily drawn to scale. For example, the shapes of various elements and angles are not drawn to scale, and some of these elements are arbitrarily enlarged and positioned to improve drawing legibility. Further, the particular shapes of the elements as drawn, are not intended to convey any information regarding the actual shape of the particular elements, and have been solely selected for ease of recognition in the drawings.
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FIG. 1A is a schematic diagram of a multi-modal food preparation system operating in a kiosk vending mode in which a kiosk serves as a cooking and vending kiosk, and provides instances of food items to customers who have submitted orders, according to at least one illustrated implementation. -
FIG. 1B is a schematic diagram of a multi-modal food preparation system operating in a constellation mode in which the kiosk serves as a hub and provides instances of food items to one or more delivery vehicles for delivery to one or more customers, according to at least one illustrated implementation. -
FIG. 1C is a schematic diagram of a multi-modal food preparation system operating in a cook en route mode in which the kiosk cooks and delivers one or more instances of food items to respective customers who have submitted orders, according to at least one illustrated implementation. -
FIG. 2 is schematic diagram of a multi-modal food preparation system that includes a vending kiosk, a purchasing kiosk, and a mobile device, according to one illustrated implementation. -
FIG. 3A is front, top, right isometric view of a kiosk that includes wheels or optional treads, and may operate in any of a kiosk vending mode, a constellation mode, and a cook en route mode, according to at least one illustrated implementation. -
FIG. 3B is a bottom plan view of the kiosk ofFIG. 3A , according to at least one illustrated implementation. -
FIG. 4A front, top, right isometric view of an interior of a food preparation unit in a vending kiosk, according to at least one illustrated implementation. -
FIG. 4B is a front, top, left isometric view of the interior of the food preparation unit in the vending kiosk shown inFIG. 4A , according to at least one illustrated implementation. -
FIG. 5 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a kiosk vending mode, according to one illustrated implementation. -
FIG. 6 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a constellation mode, according to one illustrated implementation. -
FIG. 7 is a logic flow diagram of a method of operation of a multi-modal food preparation system in a cook en route mode, according to at least one illustrated implementation. -
FIG. 8 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which a kiosk prepares and/or vends instances of food items and is replenished with one or more supplies, according to at least one illustrated implementation. -
FIG. 9 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which a kiosk is replenished with one or more supplies, according to at least one illustrated implementation. -
FIG. 10 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which instructions are transmitted to a vehicle to replenish a vending kiosk, according to at least one illustrated implementation. -
FIG. 11 is a logic flow diagram of a method of operation of a multi-modal food preparation system in which instructions are transmitted to a vending kiosk to travel to a replenishment location, according to at least one illustrated implementation. -
FIG. 12 is a schematic block diagram of a control system, according to at least one illustrated implementation. -
FIG. 13A is a front, top, right isometric view of a vending kiosk according to at least one illustrated embodiment, which includes a plurality of vending compartments, one or more cooking units, and a refrigerated supply area. -
FIG. 13B is a rear, top, right isometric view of the vending kiosk ofFIG. 13 , better illustrating the refrigerated supply area and input transport elevators, as well as an optional supply rack which can be removably docked in the refrigerated supply area. -
FIG. 13C is a cross-sectional view of the vending kiosk ofFIG. 13 , better illustrating the one or more cooking units (e.g., ovens), input transport elevators, and output input transport elevators. -
FIG. 14 is a front elevational view of a set or gang of cooking units in the form of ovens according to at least one illustrated implementation, the ovens suitable for use in the vending kiosk ofFIGS. 13A-13C . -
FIG. 15 is a front, top, left isometric view of a cooking unit in the form of an oven and a transmission, where the oven is translatable along two different axes according to at least one illustrated implementation, the ovens suitable for use in the vending kiosk ofFIGS. 13A-13C . -
FIG. 16A-16D are a front, top, left isometric view of a vending compartment at four successive periods of time or instances, according to at least one illustrated implementation. -
FIG. 17 is a front, top, left isometric view of a vertical transmission and a horizontal transmission, operable to move components of a vending compartment along at least two axes, for instance at four successive periods of time or instances illustrated inFIGS. 16A-16D , according to at least one illustrated implementation. -
FIG. 18 is a cross-sectional view of the vending kiosk employing the vending compartments illustrated inFIGS. 16A-16D , and better illustrating the cooking units (e.g., ovens), input transport elevators, and output input transport elevators, according to at least one illustrated implementation. - In the following description, certain specific details are set forth in order to provide a thorough understanding of various disclosed embodiments. However, one skilled in the relevant art will recognize that embodiments may be practiced without one or more of these specific details, or with other methods, components, materials, etc. In other instances, certain structures associated with food preparation devices or appliances such as ovens, skillets, stoves with burners, inductive heaters, micro-wave ovens, rice cookers, and, or sous vide cookers, and other similar devices, closed-loop controllers used to control cooking conditions, food preparation techniques, wired and wireless communications protocols, wired and wireless transceivers, radios, communications ports, geolocation, and optimized route mapping algorithms have not been shown or described in detail to avoid unnecessarily obscuring descriptions of the embodiments. In other instances, certain structures associated with conveyors, robots, and/or vehicles have not been shown or described in detail to avoid unnecessarily obscuring descriptions of the embodiments.
- Unless the context requires otherwise, throughout the specification and claims which follow, the word “comprise” and variations thereof, such as, “comprises” and “comprising” are to be construed in an open, inclusive sense, that is as “including, but not limited to.”
- Reference throughout this specification to “one embodiment” or “an embodiment” means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment. Thus, the appearances of the phrases “in one embodiment” or “in an embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.
- As used in this specification and the appended claims, the singular forms “a,” “an,” and “the” include plural referents unless the content clearly dictates otherwise. It should also be noted that the term “or” is generally employed in its sense including “and/or” unless the content clearly dictates otherwise.
- The headings and Abstract of the Disclosure provided herein are for convenience only and do not interpret the scope or meaning of the embodiments.
- As used herein the terms “food item” and “food product” refer to any item or product intended for human consumption. One of ordinary skill in the culinary arts and food preparation will readily appreciate the broad applicability of the systems, methods, and apparatuses described herein across any number of prepared food items or products, including cooked and uncooked food items or products, and ingredients or components of food items and products.
- As used herein the terms “robot” or “robotic” refer to any device, system, or combination of systems and devices that includes at least one appendage, typically with an end of arm tool or end effector, where the at least one appendage is selectively moveable to perform work or an operation useful in the preparation a food item or packaging of a food item or food product. The robot may be autonomously controlled, for instance based at least in part on information from one or more sensors (e.g., optical sensors used with machine-vision algorithms, position encoders, temperature sensors, moisture or humidity sensors). Alternatively, one or more robots can be remotely controlled by a human operator. Alternatively, one or more robots can be partially remotely controlled by a human operator and partially autonomously controlled. As used herein the term “food preparation unit” refers to any device, system, or combination of systems and devices useful in preparing, cooking or heating a food product, such as, for example, cooking units. While such preparation may include the heating of food products during preparation, such preparation may also include the partial or complete cooking of one or more food products. Additionally, while the term “oven” may be used interchangeably with the term “cooking unit” herein, such usage should not limit the applicability of the systems and methods described herein to only foods which can be prepared in an oven. For example, one or more burners, either gas or electric or inductive, a hot skillet surface or griddle, a deep fryer, a microwave oven, rice cooker, sous vide cooker, and/or toaster can be considered a “cooking unit” that is included within the scope of the systems, methods, and apparatuses described herein. Food preparation units may include other types of equipment used to prepare food items, such as equipment related to cooled or chilled foods, such as may be used to prepare smoothies, frozen yogurt, ice cream, and beverages (e.g., fountain beverages). Further, the food preparation unit may be able to control more than temperature. For example, some food preparation units may control pressure and/or humidity. Further, some food preparation units may control airflow therein, thus able to operate in a convective cooking mode if desired, for instance to decrease cooking time.
- As used herein the term “kiosk” refers to any standalone structure from which items can be vended. A kiosk may be a manned or attended kiosk, which is attended to, or at least partially operated by a human or human attendant. For instance, one or more humans may accept orders, prepare orders, and, or provide the ordered item to a customer. A kiosk may be an un-manned kiosk, which is operated without the assistance of a human. For instance, the un-manned kiosk may operate autonomously to accept orders, prepare orders, and, or provide (e.g., dispense) the ordered item to a customer. Thus, kiosks may be operable in a fully autonomous mode, a partially autonomous mode, or in a dependent mode. A kiosk can be fixed, substantially permanently located at a given location. A kiosk can be mobile, moving from location to location. A mobile kiosk can take the form of a vehicle, for example with a self-contained motive source (e.g., electric traction motor, internal combustion engine) and wheels or treads. A mobile kiosk can include a set of wheels, and be pushed or pulled by a human, e.g., a human attendant. A mobile kiosk can be driven either autonomously, partially autonomously under guidance of a human, or driven or otherwise moved completely under human control, e.g., via a human attendant. A kiosk can have one or more vending slots or openings from which product is dispensed. The slots or openings may omit any door or barrier. A kiosk take the form of a locker or set of lockers, having one or more compartments with respective openings and with doors or other barriers which selectively provide access to the interior of compartments from an exterior thereof, to allow customers to access ordered and, or purchased items.
- As used herein the term “vehicle” refers to any car, truck, van, or other vehicle useful in cooking and heating a food item for distribution to a customer. The size and shape of the vehicle may depend in part on licensing requirements of the locality in which the vehicle is intended to operate. In some instances, the size and shape of the vehicle may depend on the street layout and the surrounding environment of the locality in which the vehicle is intended to operate. For example, small, tight city streets may require a vehicle that is comparatively shorter and/or narrower than a vehicle that can safely and conveniently navigate larger, suburban thoroughfares.
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FIGS. 1A, 1B, and 10 show various modes of a multi-modalfood preparation system 100, including akiosk vending mode 110, aconstellation mode 120, and a cook enroute mode 130, according to at least one illustrated implementation. In a kiosk vending mode 110 (seeFIG. 1A ), akiosk 102 may include one or morefood preparation units 104 that may each be used to prepare and/or vend one or more instances offood items 106 as a combined cooking andvending vehicle 102 a. In some implementations, thefood preparation unit 104 may include one or more heaters that may be used to selectively heat thefood preparation unit 104. Such a heater may be used to cook or to maintain the warmth of thefood item 106 contained or stored within thefood preparation unit 104. - In such a
kiosk vending mode 110, thekiosk 102 may receive one or more orders for food items. In some implementations, such orders may be received from a wireless communication network, for example, via awireless communication system 108. In some implementations, thekiosk 102 may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., asmart phone 112 a or atablet 112 b) directly to thekiosk 102. In some implementations, thekiosk 102 may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to thekiosk 102. In some implementations, a remoteorder processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116) to thekiosk 102 via thewireless communication system 108. - In response to receiving each order, the
kiosk 102 may selectively warm or heat one or more of thefood preparation units 104 via the associated heaters. The warming of one of thefood preparation units 104 may be used to maintain a temperature of an instance of afood item 106 held within thefood preparation unit 104. The heating of one of thefood preparation units 104 may be used to cook an instance of afood item 106 held within thefood preparation unit 104. In such instances, after the instance of thefood item 106 is cooked, the associatedfood preparation unit 104 may change selectively warm the cookedfood item 106 to maintain the temperature of the cookedfood item 106 unit is retrieved by a consumer. - When operating in the
kiosk vending mode 110, thekiosk 102 may remain stationary at avending location 118 to vend one or more instances of food items to customers. As such, each of the consumers who have placed an order for an instance of afood item 106 may travel to thevending location 118 to retrieve the instance of thefood item 106 that the consumer has ordered. In some instances, the consumer may access the appropriatefood preparation unit 104 upon arriving at thevending location 118 by, for example, entering an order and/or identification code into a user interface that may be incorporated into thekiosk 102. In some instances, the consumer may access the appropriatefood preparation unit 104 upon arriving at thevending location 118, for example, by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., thesmartphone 112 a) associated with the consumer. In some instances, thekiosk 102 may detect the presence of a device (e.g., thesmartphone 112 a) associated with the consumer at thevending location 118 and provide access to the appropriatefood preparation unit 104 in response. - In some implementations, the consumer may be traveling to the
vending location 118 from a remote location, such asremote location 122. In such an implementation, thekiosk 102 may be provided with an estimated travel time from theremote location 122 to thevending location 118. Such an estimated travel time may be determined by thekiosk 102 and/or may be provided by a remote server such as the remoteorder processing unit 114 or a third-party server. As such, thekiosk 102 may selectively heat thefood preparation unit 104 associated with the order from the consumer such that the food item will be fully cooked at or just before the estimated time that the consumer will be arriving to retrieve the order. - In some implementations, the
kiosk 102 may be replenished with supplies, such as cooked and/oruncooked food items 106, or supplies for preparing, making, and/or assemblingfood items 106. In some implementations, avehicle 124 may hold one or more supplies that may be used to replenish thekiosk 102. In such implementations, thevehicle 124 may receive instructions to travel to thevending location 118 in order to replenish one or more supplies for thekiosk 102. Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thevehicle 124 should take. In some implementations, the instructions may be transmitted to thevehicle 124 from one or more sources, such as, for example, areplenishment server 126, or some other remote server, via awireless communications network 116. Thereplenishment server 126 may be communicatively coupled to either or both of thevehicle 124 and thekiosk 102. In response to receiving such instructions, thevehicle 124 may proceed along areplenishment route 132 as indicated by the instructions to replenish thekiosk 102 with one or more supplies and/or instances of food items. In some implementations, thereplenishment route 132 may be determined by thereplenishment server 126 and/or by a third-party server, and transmitted to thevehicle 124. - In some implementations, the
kiosk 102 may be a self-propelled kiosk that may travel to areplenishment location 144 to be replenished, or to new locations to vend. Thekiosk 102 may move completely autonomously, based on a desired destination and information about the surrounding environment. Alternatively, thekiosk 102 may move semi-autonomously, based on a desired destination and some guidance by a human, either present at the kiosk or located remotely therefrom and monitoring the travels of thekiosk 102. Alternatively, thekiosk 102 may move non-autonomously or dependent on a human, who may push and, or pull the kiosk to the desired destination. - A building (e.g., a warehouse) or a vehicle (e.g., a delivery vehicle) may be at the
replenishment location 144 and may hold one or more supplies that may be used to replenish thekiosk 102. In such implementations, thekiosk 102 may receive instructions to travel to thereplenishment location 144 in order to have one or more supplies for thekiosk 102 replenished. Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thekiosk 102 should take. In some implementations, the instructions may be transmitted to thekiosk 102 from one or more sources, such as, for example, thereplenishment server 126, or some other remote server, via awireless communications network 116. Thereplenishment server 126 may be communicatively coupled to either or both of thekiosk 102, and the building and/or vehicle at thereplenishment location 144. In response to receiving such instructions, thekiosk 102 may be dispatched to traverse the route to thereplenishment location 144. - In some implementations, the
replenishment server 126 may transmit the instructions to replenish thekiosk 102 based upon one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106) currently available at thekiosk 102, the number of instances offood items 106 the kiosk has vended, the rate at which thekiosk 102 is using the supplies and/or vending instances offood items 106, the rate at which thekiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by thekiosk 102, and/or a signal received from thekiosk 102 indicating a need for replenishment of one or more supplies. In some instances, in response to receiving such instructions, thevehicle 124 may be dispatched to thevending location 118 to replenish thekiosk 102. Once thevehicle 124 reaches thevending location 118, thekiosk 102 may receive replenishment from thevehicle 124 based at least in part of the information received by thereplenishment server 126. In some instances, in response to receiving such instructions, thekiosk 102 may be dispatched to thereplenishment location 144 to receive replenishment at thereplenishment location 144. - In some implementations, the
replenishment server 126 may include aneural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish thekiosk 102. Such aneural network 128 may receive one or more of the information listed above as inputs to determine a time at which thekiosk 102 may exhaust one or more of the supplies. In some implementations, theneural network 128 may use training data in making such a determination. Such training data may represent actual demand for instances of thefood item 106 from thekiosk 102 that may have been experienced at previous times at the same or similar locations. As such, theneural network 128 may be able to take into account information regarding the sales of instances offood items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather. Theneural network 128 may use this training data to predict the demand for the instances offood items 106 in the future. The determined expected demand may be used to determine when to transmit the instructions to thevehicle 124 to replenish thekiosk 102. - In some implementations, the
replenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to thevehicle 124 to replenish thekiosk 102. In some implementations, for example, thereplenishment server 126 may determine an estimated time to complete replenishing one or more supplies at thekiosk 102. Such a determination of an estimated time to replenish may be based, at least in part, on the time to transfer the one or supplies and/or the instances offood items 106 from thevehicle 124 to thekiosk 102, and/or on the amount of time for thevehicle 124 to travel to thevending location 118. In some implementations, thereplenishment server 126 may determine the amount of time before thekiosk 102 the supplies and/or instances offood items 106. As such, thereplenishment server 126 may transmit instructions to thevehicle 124 to replenish thekiosk 102 such that the replenishment is complete before the estimated time by which thekiosk 102 will exhaust one or more of the supplies and/or instances offood items 106. - In some implementations, the
replenishment server 126 may determine times at which thekiosk 102 may have slack demand for vending instances offood items 106 to customers. As such, thereplenishment server 126 may transmit instructions to thevehicle 124 to replenish thekiosk 102 with one or more supplies and/or instances offood items 106 during a period of slack demand to minimize the inconvenience to consumers. - In the constellation mode 120 (see
FIG. 1B ), thekiosk 102 may be at alocation 134, operating as ahub 136, in which thekiosk 102 prepares one ormore food items 106 that are to be delivered to customers in ageographic area 138 surrounding thelocation 134. Such preparation may include, for example, heating the one or more food items in the respectivefood preparation unit 104. In some implementations, thefood preparation unit 104 may warm the one or food items once the one or more food items are prepared to maintain the temperature of the one or more prepared food items at a desired temperature. As each food item is prepared and each order is complete, separate vehicles serve as delivery vehicles 140 and may be used to deliver the prepared food item to anappropriate delivery destination 142. Optionally, these separate delivery vehicles 140 may cook or complete cooking of food items, while en route to a destination. Such separate delivery vehicles 140 may include, for example, ground or flyingdrones bicycle 140 c, or amotorized vehicle 140 d. In some implementations, theconstellation mode 120 may serve ageographic area 138 that is about 2-3 miles in width or radius. - In some implementations, instructions may be transmitted to the one or more delivery vehicles 140 to retrieve one more food items from the
kiosk 102 operating as a hub 115. In some implementations, the delivery vehicle 140 may receive instructions that result in the delivery vehicle 140 being dispatched to thekiosk 102 operating as a hub 115. The delivery vehicle 140 may be dispatched to thekiosk 102 operating as a hub 115 based, for example, at least in part on one or more of readiness of an order to be delivered by the delivery vehicle 140, of an estimated travel time from thekiosk 102 operating as a hub 115 to adelivery destination 142 using a single destination delivery route, of an estimated travel time from thekiosk 102 operating as a hub 115 to adelivery destination 142 located on a multiple destination delivery route, and of a delivery time period for delivering an order to an associateddelivery destination 142, in which the delivery time period may provide a threshold time by which delivery of the order is to be completed. In some implementations, the instructions transmitted to the delivery vehicle 140 may include, for example, destination information for thedelivery destinations 142 associated with each of the respective orders of food items to be delivered. In some implementations, the instructions transmitted to the delivery vehicle 140 may include route information to thelocation 134 of thekiosk 102 operating as a hub 115, and/or route information from thekiosk 102 operating as a hub 115 to thedelivery destination 142 associated with an order for an instance of a food item. - In some implementations, the orders for one or more food items may be received from a wireless communication network, for example, via the
wireless communication system 108. In some implementations, thekiosk 102 operating as thehub 136 may receive orders transmitted from one or more customer processor-based communications devices (not shown) directly to thekiosk 102. In some implementations, the remoteorder processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116) to thekiosk 102 operating as thehub 136 via thewireless communication system 108. In some implementations, the received orders for instances of food items may be transmitted from the remoteorder processing unit 114 to thekiosk 102 operating as thehub 136. In some implementations, the remoteorder processing unit 114 may transmit one or more of delivering destinations, associated orders for food items, and/or route information from thelocation 134 to one or more of thekiosk 102 operating as thehub 136, and/or one or more of the delivery vehicles 140. - In some implementations, the
kiosk 102 operating as thehub 136 may be replenished with one more supplies and/or food items when operating in theconstellation mode 120, as discussed above in thekiosk vending mode 110. In some implementations, thevehicle 124 may hold one or more supplies that may be used to replenish thekiosk 102 operating as thehub 136. In such implementations, thevehicle 124 may receive instructions to travel to thelocation 134 in order to replenish one or more supplies for thekiosk 102 operating as thehub 136. In response to receiving such instructions, thevehicle 124 may proceed along afirst replenishment route 132 a as indicated by the instructions to replenish thekiosk 102 operating as thehub 136 with one or more supplies and/or instances of food items. In some implementations, thereplenishment route 132 may be determined by thereplenishment server 126 and/or by a third-party server, and transmitted to thevehicle 124. - In some implementations, the
kiosk 102 may be a self-propelled kiosk that may travel to areplenishment location 144, either autonomously, semi-autonomously, or non-autonomously as noted above. A building (e.g., a warehouse) or a vehicle (e.g., a delivery vehicle) may be at thereplenishment location 144 and may hold one or more supplies that may be used to replenish thekiosk 102. In such implementations, thekiosk 102 may receive instructions to travel to thereplenishment location 144 in order to have one or more supplies for thekiosk 102 replenished. Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thekiosk 102 should take. In response to receiving such instructions, thekiosk 102 may proceed along asecond replenishment route 132 b as indicated by the instructions to travel to thereplenishment location 144. In some implementations, thesecond replenishment route 132 b may be determined by thereplenishment server 126 and/or by a third-party server, and transmitted to thekiosk 102. - In some implementations, the
replenishment server 126 may transmit the instructions to thevehicle 124 to replenish thekiosk 102 based upon one or more factors, as discussed above. In some implementations, thereplenishment server 126 may include aneural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish thekiosk 102 operating as the hub, as discussed above. In some implementations, thereplenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to thekiosk 102 operating as thehub 136. - In a cook en
route mode 130, thekiosk 102 may prepare and cook food items for delivery as thekiosk 102 travels betweendifferent delivery destinations 142. In such a mode, thekiosk 102 may serve as a cooking and delivery vehicle. The order of cooking and delivering the food items may be modifiable based on various criteria (e.g., optimizing delivery or wait times, or geographical groupings). In some implementations, thekiosk 102 operating in the cook enroute mode 130 may be provided with orders for food items grouped within ageographic area 138 to optimize time and resources for delivery. Such orders may be received directly from a consumer and/or from a remoteorder processing unit 114 via thewireless communication system 108. - In response to receiving each order, the
kiosk 102 may selectively warm or heat one or more of thefood preparation units 104 via the associated heaters to warm and/or prepare an instance of a food item ordered by the consumer. The warming of one of thefood preparation units 104 may be used to maintain a temperature of an instance of afood item 106 held within thefood preparation unit 104. The heating of one of thefood preparation units 104 may be used to cook an instance of afood item 106 held within thefood preparation unit 104. In such instances, after the instance of thefood item 106 is cooked, the associatedfood preparation unit 104 may change selectively warm the cookedfood item 106 to maintain the temperature of the cookedfood item 106 unit is retrieved by a consumer. The process for cooking a food item ordered by a consumer may be based, at least in part, on an estimate of travel time for thekiosk 102 to travel to the consumer. For example, in some instances, thekiosk 102 may initiate the cooking of a food item ordered by a consumer such that the food item is fully cooked at or before the estimated time that thekiosk 102 will arrive at thedelivery destination 142. In some instances, the estimated travel and/or arrival time may be received from a remote server, such as, for example, the remoteorder processing unit 114 and/or from a third party server. - In some implementations, the
kiosk 102 operating in the cook enroute mode 130 may be replenished with one more supplies and/or food items, as discussed above. In some implementations, thevehicle 124 may hold one or more supplies that may be used to replenish thekiosk 102. In such implementations, thevehicle 124 may receive instructions to travel to a location of thekiosk 102. In response to receiving such instructions, thevehicle 124 may proceed along a replenishment route as indicated by the instructions to replenish thekiosk 102 with one or more supplies and/or instances of food items. In some implementations, thereplenishment route 132 may be determined by thereplenishment server 126 and/or by a third-party server, and transmitted to thevehicle 124. In some locations, thekiosk 102 may travel to a location at which thekiosk 102 will be arriving at some point in the future. In some implementations, for example, the travel instructions provided to thevehicle 124 to travel to the location to replenish thekiosk 102 may be based at least in part on the travel time of thevehicle 124 to the location and on the travel time of thekiosk 102. In some implementations, a location may be determined such that the travel time of thevehicle 124 will be the same as, or substantially equivalent to, the travel time of thekiosk 102. - In some implementations, the
kiosk 102 may be a self-propelled kiosk that may travel to areplenishment location 144, either autonomously, semi-autonomously, or non-autonomously as noted above. A building (e.g., a warehouse) or a vehicle (e.g., a delivery vehicle) may be at thereplenishment location 144 and may hold one or more supplies that may be used to replenish thekiosk 102. In such implementations, thekiosk 102 may receive instructions to travel to thereplenishment location 144 in order to have one or more supplies for thekiosk 102 replenished. Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thekiosk 102 should take. In response to receiving such instructions, thekiosk 102 may proceed along asecond replenishment route 132 b as indicated by the instructions to travel to thereplenishment location 144. In some implementations, thesecond replenishment route 132 b may be determined by thereplenishment server 126 and/or by a third-party server, and transmitted to thekiosk 102. - In some implementations, the
replenishment server 126 may transmit the instructions to thevehicle 124 to replenish thekiosk 102 based upon one or more factors, as discussed above. In some implementations, thereplenishment server 126 may include aneural network 128 or other learning machine that may be used to determine when to transmit instructions to replenish thekiosk 102 operating as the hub, as discussed above. In some implementations, thereplenishment server 126 may take other considerations into account to determine when to transmit instructions and/or information to thekiosk 102 operating as thehub 136. - In some implementations, the
kiosk 102 may simultaneously operate in both the cook enroute mode 130 and theconstellation mode 120. In such an implementation, thekiosk 102 may be traveling to adelivery destination 142 to deliver a food item while at the same time preparing other food items to be delivered toother delivery destinations 142 by other separate delivery vehicles (e.g.,motorized vehicle 140 d). As such, thekiosk 102 may transmit one or more meeting locations to these other separate delivery vehicles 140 at which the prepared food items may be transferred to the other separate delivery vehicles 140. The meeting locations may be different from the current location of thekiosk 102. For example, in some implementations, thekiosk 102 may determine the time remaining before a food item to be delivered by one of the other separate delivery vehicles 140 will be prepared. Thekiosk 102 may then determine a location or area where thekiosk 102 is likely to be when delivering the food item for the cook enroute mode 130. Thekiosk 102 may then transmit a meeting spot to the other separate delivery vehicle 140 to meet at the determined location or within the determined area to transfer the food item to be delivered in theconstellation mode 120. In some implementations, thekiosk 102 may temporarily remain stationary at the determined location or within the determined area to transfer food items to multiple other delivery vehicles 140 for delivery to multipleother delivery destinations 142 as part of theconstellation mode 120. When all of the transfers are complete, thekiosk 102 may then continue to thedelivery destination 142 for the food item to be delivered as part of the cook enroute mode 130. - Notably, a self-propelled kiosk can operate autonomously, semi-autonomously, or non-autonomously in traveling between locations. A kiosk can prepare (e.g., assemble, heat, cool, cook) items (e.g., prepared food items) autonomously, semi-autonomously, or non-autonomously. Such operation can be independent of whether the kiosk travels between locations either autonomously, semi-autonomously, or non-autonomously. Further, a kiosk can vend or dispense or provide access to items (e.g., prepared food items), autonomously, semi-autonomously, or non-autonomously. Such operation can be independent of whether the kiosk travels between locations either autonomously, semi-autonomously, or non-autonomously. Such operation can be independent of whether the kiosk prepares (e.g., assembles, heats, cools, cooks) items (e.g., prepared food items) autonomously, semi-autonomously, or non-autonomously.
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FIG. 2 shows a kiosk-basedfood vending system 200 that includes avending kiosk 202, apurchasing kiosk 204, amobile device 206, and a remoteorder processing system 208, according to one illustrated implementation. In some implementations, the kiosk-basedfood vending system 200 may function in one of thekiosk vending mode 110, the constellation mode, and/or the cook enroute mode 130. In some implementations, the kiosk-basedfood vending system 200 may selectively transition between thekiosk vending mode 110, the constellation mode, and/or the cook enroute mode 130 as a multi-modal food preparation system. - The
vending kiosk 202 may include one or morefood preparation units 210 that contain items that may be purchased and subsequently retrieved by consumers. Thevending kiosk 202 may be communicatively coupled with thepurchasing kiosk 204 and themobile device 206 via anantenna 212 andradio 214 that are included as part of thevending kiosk 202. Thepurchasing kiosk 204 may include apurchasing kiosk antenna 216 that thepurchasing kiosk 204 may use to wirelessly transmit signals to, and receive wirelessly transmitted signals from, theantenna 212 on the vending kiosk. Themobile device 206 may include one or moremobile device antenna 220 that themobile device 206 may use to wirelessly transmit signals to, and receive wirelessly transmitted signals from, theantenna 212 on thevending kiosk 202. Thepurchasing kiosk 204 and/or themobile device 206 may advantageously be used to receive and/or authorize purchase transactions at locations that are remote from thevending kiosk 202 from which the purchased items are retrieved. Such an arrangement provides consumers with the ability to place and authorize purchase transactions at their convenience, such as, for example, when the consumer is in transit to thevending kiosk 202. Such an arrangement may be used for crowd control and management by separating the purchase transaction activities at thepurchasing kiosk 204 from the item retrieval activities at thevending kiosk 202, thereby decreasing the number of consumers who may be congregating around thevending kiosk 202 at any given time. - The
vending kiosk 202 may include acontrol system 218. Thecontrol system 218 may take the form of any current or future developed processor-enabled device capable of executing one or more instruction sets. Thecontrol system 218 may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks. Thecontrol system 218 may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor. Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of thevending kiosk 202. In some implementations, the processor-readable instructions, instruction sets, or instruction blocks may control the operation of various subsystems or components on thevending kiosk 202, such as various components of auser input device 222. In some implementations, thecontrol system 218 may be used to communicate using one or more using wireless communications protocols via theantenna 212 andradio 214. In some implementation, some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device, such as the remoteorder processing system 208. In such an implementation, the resulting control signals may be transmitted to the vending kiosk via a communication network. - In some implementations, one or more components in the wireless network may communicate using wireless communications protocols, such as protocols for wireless local area networks (e.g., WIFI®, IEEE 802.11, WiMAX, IEEE 802.116, VoIP, and the like) or protocols for wireless peer-to-peer communications (e.g., Bluetooth®, Bluetooth® Low Energy, and the like). In some implementations, the devices such as the
vending kiosk 202, thepurchasing kiosk 204, and/or themobile device 206 may communicate via near field communication (NFC) and/or radio frequency identification (RFID). In some implementations, thepurchasing kiosk 204 and/or thevending kiosk 202 may include auser input device 222 that may include one or more of amagnetic stripe reader 224, akeypad 226, atouchscreen 228, animage capture device 230, and/or abiometric capture device 232. In some implementations, themagnetic stripe reader 224 may be used to read and collect information that has been encoded within a financial transaction card using, for example, a magnetic stripe, a card chip, or some other type of storage medium. Themagnetic stripe reader 224 may be communicatively coupled to one or more processors that may authorize a requested purchase transaction based upon information stored within and/or associated with the financial transaction card. Such one or more processors may be located locally at thepurchasing kiosk 204 and/or remotely from thepurchasing kiosk 204 at one or more processor-enabled devices, such as the remoteorder processing system 208, that may be communicatively coupled to thepurchasing kiosk 204 via acommunications network 234. - The
keypad 226 and/ortouchscreen 228 may be used to enter information related to an item stored within one or more of thefood preparation units 210 in thevending kiosk 202. In such an implementation, for example, thekeypad 226 and/ortouchscreen 228 may be used to enter a key code that may associated with a previous purchase transaction and/or order to be retrieved from one of thefood preparation units 210 in thevending kiosk 202. In some implementations, the key code may include an order identifier that may be associated with a previous purchase transaction and may be comprised of a unique code that is associated with an order to be retrieved from thevending kiosk 202. In some implementations, the order identifier may be a randomly generated identifier that is not related to the order identifiers associated with other items being stored within thevending kiosk 202. Such a randomly generated identifier may be used, for example, to prevent orders from being stolen, and to reduce the possibility that an order entry that has been mis-entered will nonetheless open thedoor 236 to one of thefood preparation units 210 associated with another order. In some implementations, the key code may additionally or alternatively include a customer identifier that may be associated with the customer who will be retrieving the order from thevending kiosk 202. In some implementations, thetouchscreen 228 may be used to display information identifying theappropriate door 236 from which a consumer can retrieve an order from thevending kiosk 202. - The
image capture device 230 may include, for example, a video camera or a still-image camera that may be used to capture images. In some implementations, such images may include, for example, machine-readable symbols that may be displayed within a field-of-vision of theimage capture device 230. Such machine-readable symbols may include, for example, bar codes and/or Quick Response codes. In such an implementation, the machine-readable symbols may be affixed to a physical object (e.g., printed on a piece of paper) and/or may be rendered on a changeable display. For example, in some implementations, the machine-readable symbol may be electronically transmitted to a portable device via, for example, an email and/or text to an address associated with the consumer, to be rendered on a display of the portable device within the field-of-vision of theimage capture device 230. Theimage capture device 230 in such an implementation may transmit the captured image of the machine-readable symbol to a processor-enabled device to decode the information contained within the machine-readable symbol. Such a processor enabled device may be local to thepurchasing kiosk 204 or located remotely from thepurchasing kiosk 204. In response, the processor-enabled device may transmit one or more signals that may result in theappropriate door 236 to one of thefood preparation units 210 in thevending kiosk 202 being unlocked for the consumer. - The
biometric capture device 232 and associated software may be used to identify consumers based upon one or more physical characteristics. Thebiometric capture device 232 and associated software may be used to identify consumers based upon, for example, one or more of fingerprints, facial features, eye feature, vocal characteristics, and/or any other unique physical characteristic of the consumer. In some implementations, such software may be implemented by one or more processor-enabled devices, including processor-enabled devices that may be communicatively coupled to thepurchasing kiosk 204 via a communications network. Once thebiometric capture device 232 and associated software has identified the consumer, the processor-enable device may transmit one or more signals that may result in theappropriate door 236 to one of thefood preparation units 210 in thevending kiosk 202 being unlocked for the consumer. - The
mobile device 206 may be used to enter purchasing information and to retrieve an item from one of thefood preparation units 210 in thevending kiosk 202. Such purchasing and retrieval via themobile device 206 may be facilitated by a user application, or app, that is implemented on and displayed by themobile device 206. In some implementations, the consumer may use a software application (app) with an associated user interface presented by themobile device 206 to authorize a purchase transaction for an item held in one of thefood preparation units 210 in thevending kiosk 202. In some implementations, the app may be used to display pictures or other information related to the items stored in the variousfood preparation units 210 in thevending kiosk 202. In some implementations, the app rendered by themobile device 206 may be used to display additional information to facilitate a purchase transaction by the consumer. For example, in some implementations, the app may be used to display or otherwise present information, such as location information in the form of a map and/or address list, formultiple vending kiosks 202 located within the vicinity of the consumer. Such information may also include the type of items currently available for purchase from each of thedifferent vending kiosks 202. Such an app may enable the consumer to remotely authorize a purchase transaction for items that may be retrieved from one of thevarious vending kiosks 202. The consumer may then travel to theappropriate vending kiosk 202 without worrying that the item may have been sold out in during the interim period while the consumer traveled to thevending kiosk 202. - In some implementations, the consumer may use the app rendered by the
mobile device 206 to retrieve items from thevending kiosk 202. In some implementations, for example, the app may be used to produce a machine-readable symbol that may be detected by thevending kiosk 202. Such a machine-readable symbol may be in the form of a visual symbol (e.g., a bar code symbol or a Quick Response code symbol) that may be detected by animage capture device 230 at thevending kiosk 202. In some implementations, a machine-readable symbol may be contained within a wireless transmission, such as an NFC signal and/or an RFID signal, that may be received by theantenna 212 andradio 214 at thevending kiosk 202. Upon receiving and confirming the machine-readable symbol, the vending kiosk may open thedoor 236 to the appropriatefood preparation units 210 of thevending kiosk 202 to provide access to the food item to be retrieved from the associatedfood preparation unit 210. In some implementations, the app may be used to display information identifying thedoor 236 to the appropriatefood preparation unit 210 of thevending kiosk 202 upon confirming the purchase transaction. - The remote
order processing system 208 may be communicatively coupled to thevending kiosk 202 via thecommunications network 234. In some implementations, the remoteorder processing system 208 may execute one or more instructions from a purchase confirmation application to confirm a purchase transaction for one or more food items being held within one or more of thefood preparation units 210 in thevending kiosk 202. Such purchase transactions may be initiated by one or more of thevending kiosk 202, thepurchasing kiosk 204, and/or themobile device 206, for example. The purchase confirmation application can be executed by one or more hardware circuits, for instance one or more processors and stored on one or more associated nontransitory storage media, e.g., memory (e.g., FLASH, RAM, ROM) and/or spinning media (e.g., spinning magnetic media, spinning optical media) that stores at least one of processor-executable instructions or data. The remoteorder processing system 208 may communicatively couple with thevending kiosk 202 to transmit information to confirm a purchase transaction. Some communications can employ one or more proprietary communications channels, for instance a proprietary network communications channel like a proprietary Local Area Network (LAN) or proprietary Wide Area Network (WAN) such as one or more intranets. Some communications can employ one or more non-proprietary communications channels, for instance one or more non-proprietary network communications channels like a Wide Area Network (WAN) such as the Internet and/or cellular provider communications networks including voice, data and short message service (SMS) networks or channels as part of thecommunications network 234. - In some implementations, the remote
order processing system 208 may execute one or more instructions from an end user authentication application to authenticate the identity of an end user to retrieve one or more food items being held within one or more of thefood preparation unit 210 in thevending kiosk 202. Such end user authentication may be initiated by one or more of thevending kiosk 202, thepurchasing kiosk 204, and/or themobile device 206. The end user authentication application can be executed by one or more hardware circuits, for instance one or more processors and stored on one or more associated nontransitory storage media, e.g., memory (e.g., FLASH, RAM, ROM) and/or spinning media (e.g., spinning magnetic media, spinning optical media) that stores at least one of processor-executable instructions or data. The remoteorder processing system 208 may communicatively couple with thevending kiosk 202 to transmit information to confirm a purchase transaction. Some communications can employ one or more proprietary communications channels, for instance a proprietary network communications channel like a proprietary Local Area Network (LAN) or proprietary Wide Area Network (WAN) such as one or more intranets. Some communications can employ one or more non-proprietary communications channels, for instance one or more non-proprietary network communications channels like a Wide Area Network (WAN) such as the Internet and/or cellular provider communications networks including voice, data and short message service (SMS) networks or channels as part of thecommunications network 234. - In some implementations, the remote
order processing system 208 may transmit routing, cooking (e.g., temperature control schedule), and/or destination instructions to thevending kiosk 202 and/or one or more delivery vehicles (not shown) via thecommunications network 234. Such routing and/or destination instructions may be used, for example, when thevending kiosk 202 is autonomously movable. Thevending kiosk 202 may store the transmitted routing, cooking, and/or destination instructions on one or more nontransitory storage media to be used during routing of the vehicle, cooking of food items, and/or travel to a destination. In some implementations, the remoteorder processing system 208 may transmit updated routing, cooking, and/or destination instructions to thevending kiosk 202, which may thereby update the previously stored instructions. In some implementations, thevending kiosk 202 may transmit information back to the remoteorder processing system 208. Such information may include, for example, number and amount of sales of food items, remaining ingredients left in thevending kiosk 202, current location of thevending kiosk 202, and like information. The routing, cooking, and/or destination instructions may be used by thevending kiosk 202 to travel to the distribution location. -
FIGS. 3A and 3B show a multi-modalfood preparation system 300 that includes a self-propelledkiosk 301 with avending kiosk 302, a set ofwheels 304, amotor 306, anoptional cleaning subsystem 308, and an on-board self-propelledvehicle control system 310, according to at least one illustrated implementation. Such a multi-modalfood preparation system 300 may selectively transition between thekiosk vending mode 110, the constellation mode, and/or the cook enroute mode 130 as a multi-modal food preparation system. Although depicted as including a self-propelledkiosk 301, the multi-modalfood preparation system 300 may optionally not have an on-board self-propelledvehicle control system 310, and may optionally remain stationary. - The
vending kiosk 302 may include a plurality ofdoors 312 that may provide access to correspondingfood preparation units 314. Items, such as food items, may be retrieved from thefood preparation units 314. Each of thedoors 312 may be in anopen configuration 316 to provide access to the associatedfood preparation unit 314, or in aclosed configuration 318 to prevent access to the associatedfood preparation unit 314. In some implementations, one or more of thedoors 312 may be selectively locked in theclosed configuration 318 to protect the item being stored in the correspondingfood preparation unit 314 until the item can be retrieved by the consumer who has purchased the item. - The set of
wheels 304 may be used by the self-propelledkiosk 300 to travel across a geographic area. Themotor 306 may be drivingly coupled to one or more wheels in the set ofwheels 304, and used to drive the set ofwheels 304 in an autonomous vehicle mode or in a semi-autonomous vehicle mode. Themotor 306 may be any type of motor that may be used to drive the set ofwheels 304, such as an electric motor, a gasoline-powered motor, a natural gas-powered motor, or any other type of similar motor. In some implementations, a set oftreads 320 may be used to travel over a physical terrain. In such implementations, the set oftreads 320 may provide improved stability when traveling over uneven terrain as compared to the set ofwheels 304. - In some implementations, in the autonomous vehicle mode, the self-propelled
kiosk 300 may be provided with destination information (e.g., destination location and/or route information), and the self-propelledkiosk 300 may navigate to the destination without any control or supervision by a human. In such an implementation, the self-propelledkiosk 300 may use one or more sensors to collect information about the surroundings of the self-propelledkiosk 300. Based upon the collected information, one or more control systems on the self-propelledkiosk 300 may determine what actions the self-propelledkiosk 300 should take in response in order to continue traveling towards the destination location. In some implementations, in the semi-autonomous vehicle mode, the self-propelledkiosk 300 may be subject to at least some control and/or supervision by a human. In such an implementation, for example, the self-propelledkiosk 300 may use one or more sensors to collect information about the surroundings of the self-propelledkiosk 300. A human controller may have the ability to review the collected information and control the navigation of the self-propelledkiosk 300 based upon this collected information. In some implementations, the human controller may intervene to control the self-propelledkiosk 300 in limited situations, such as, for example, when a control system on the self-propelledkiosk 300 cannot identify a next action to take in a given situation. - The
cleaning subsystem 308 may include one ormore brushes 322, aplenum 324, and a low-pressure source 326, and adebris collection compartment 328. Thebrushes 322 and theplenum 324 may be located along a bottom-facing side 330 (FIG. 3B ) of the self-propelledkiosk 300, and may be oriented to face towards the ground or other surface on which the self-propelledkiosk 300 rests. In some implementations, thebrushes 322 may have an annular shape or a circular shape with anoutside diameter 331 and aheight 332. Theheight 332 of thebrushes 322 may be equal to or larger than a distance separating the bottom-facingside 330 of the self-propelledkiosk 300 from the ground or surface on which the self-propelledkiosk 300 rests. In this situation, at least a portion of thebrushes 322 may make contact with the surface on which the self-propelledkiosk 300 rests to facilitate the collection of debris from the surface. In some implementations, at least some of thebrushes 322 may be drivingly coupled to a motor that may move thebrushes 322 to improve the collection of debris. In implementations in which thebrushes 322 have a circular profile, the motor may rotate thebrushes 322 about an axis ofrotation 333 that extends outward from a center of thebrushes 322. In such an implementation, thebrushes 322 may be rotated to sweep debris towards a collection component (e.g., theplenum 324, discussed below) located on thebottom facing side 330 of the self-propelledkiosk 300. For example, inimplementations involving brushes 322 with a circular shape, the portion of thebrush 322 facing the direction of movement of the self-propelledkiosk 300 may be rotated towards collection component to thereby facilitate the collection of debris. - The
cleaning subsystem 308 may include aplenum 324 and an associatedlow pressure source 326. Theplenum 324 may have anopen end 334 and extend outward from the bottom-facingside 330 of the self-propelledkiosk 300 such that theopen end 334 is directed towards the surface that supports the self-propelledkiosk 300. In some implementations, theopen end 334 of theplenum 324 may have a rectangular profile with a length and a width, and theplenum 324 may have aheight 336.Such height 336 may be less than the distance from the bottom-facingside 330 of the self-propelledkiosk 300 and the surface on which the self-propelledkiosk 300. Theplenum 324 may be in fluid communication with thelow pressure source 326, such as a pump. Thelow pressure source 326 may create a low pressure that is less than an atmospheric pressure of the ambient environment surrounding the self-propelledkiosk 300. The low pressure created by thelow pressure source 326 may produce a suction effect at theopen end 334 to thereby draw debris into theopen end 334 of theplenum 324. - The
plenum 324 may be in fluid communication with adebris collection compartment 328 such that a fluid pathway extends from theopen end 334 of theplenum 324 to thedebris collection compartment 328. The debris that enters theopen end 334 of theplenum 324 may travel through the fluid pathway to thedebris collection compartment 328. Thedebris collection compartment 328 may include an interior cavity that may store the debris collected by thecleaning subsystem 308. In some implementations, thedebris collection compartment 328 may be selectively removable from the self-propelledkiosk 300 such that the debris contained within thedebris collection compartment 328 may be emptied. - The on-board self-propelled
vehicle control system 310 may take the form of any current or future developed processor-enabled device capable of executing one or more instruction sets. The on-board self-propelledvehicle control system 310 may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks. The on-board self-propelledvehicle control system 310 may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor. Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of the self-propelledkiosk 300, such as themotor 306 and/or thecleaning subsystem 308. In some implementations, the processor-readable instructions, instruction sets, or instruction blocks may control the operation of self-propelledkiosk 300 in one or both of the autonomous vehicle mode and the semi-autonomous vehicle mode. In some implementation, some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device. In such an implementation, the resulting control signals may be transmitted to the vending kiosk via a communication network. -
FIGS. 4A and 4B show different isometric views of an interior 400 of onefood preparation unit 402 in avending kiosk 404, according to at least one illustrated implementation. Acontainer 406, such as a container that may hold one or more food items, is supported in thefood preparation unit 402, for instance resting one abottom surface 408 of thefood preparation unit 402. Theinterior 400 of thefood preparation unit 402 may include one ormore side walls 410 and anupper surface 412. Thebottom surface 408, the one ormore side walls 410, and theupper surface 412 may comprise the interior surfaces of thefood preparation unit 402. - The
food preparation unit 402 may include aheater 416 that may be used to increase the temperature of theinterior 400 of thefood preparation unit 402 to a heated state. Theheater 416 may include one or more of an electrically resistive heating element, a natural gas burner, a propane burner, and/or an inductive heating element. In some implementations, theheater 416 may be positioned, for example, along aside wall 410 that is opposite theopening 418 to thefood preparation unit 402. In such an implementation, theheater 416 may include aheater opening 420 through which heat may be introduced to theinterior 400 of thefood preparation unit 402. Alternatively, one or more walls of the compartments may include thermally radiant elements (e.g., electrically resistive conduits carrying heated fluid). In some implementations, a fan may be used to direct heated air into theinterior 400 of thefood preparation unit 402 through theheater opening 420 or to otherwise circulate heated air throughout thefood preparation unit 402. - In some implementations, each
food preparation unit 402 in thevending kiosk 404 may include aseparate heater 416, such that thevending kiosk 404 includes a plurality ofheaters 416. In such implementations, at least one of the plurality ofheaters 416 may include an electrically resistive heating element. In some implementations, the heated state provided by theheater 416 may include a cooking state in which theheater 416 may raise the temperature in thefood preparation unit 402 to at least 325° F. to cook an item of food stored in the compartment. In some implementations, the heated state provided by theheater 416 may include a heating state in which theheater 416 may be operable to raise the temperature in thefood preparation unit 402 to between 140° F. and 250° F. to warm an already cooked item of food stored in theinterior 400 of thefood preparation unit 402. In some implementations, theheater 416 may be operable transition between the cooking state and the warming state based upon one or more signals, such as signals that may be transmitted by a processor-enabled device. In such implementations, for example, theheater 416 may transition from the cooking state to the warming state in response to a food item being fully cooked, such that the fully cooked food item may be maintained at a warm, elevated temperature until the food item is retrieved. - In some implementations, the
food preparation unit 402 may include a cooler 422 that may be used to decrease the temperature of theinterior 400 of thefood preparation unit 402. The cooler 422 may include one or more of a refrigerant carrying coil and compressor, a Peltier device, or thermoelectric cooler. In some implementations, the cooler 422 may be positioned, for example, along one of theside walls 410 of thefood preparation unit 402. In such an implementation, the cooler 422 may include acooler opening 424 through which cooled, refrigerated air may be introduced to theinterior 400 of thefood preparation unit 402 to thereby lower the temperature of theinterior 400 of thefood preparation unit 402 in a refrigerated state. In some implementations, a fan may be used to direct the refrigerated air into theinterior 400 of thefood preparation unit 402. One or more Peltier devices can advantageously be used for both cooling and heating. - In some implementations, each
food preparation unit 402 in thevending kiosk 404 may include aseparate cooler 422, such that thevending kiosk 404 includes a plurality ofcoolers 422. In such implementations, at least one of the plurality ofcoolers 422 may include a refrigerant carrying coil. In some implementations, the refrigerated state provided by the cooler 422 may lower the temperature within theinterior 400 of thefood preparation unit 402 to at or below 41° F. to cool an item of food stored in the compartment. In some implementations, onefood preparation unit 402 may include aheater 416 and a cooler 422 that may be operable to transition between the refrigerated state, the warming state, and the cooking state. In such implementations, for example, the cooler 422 may maintain a food item at a lower temperature (e.g., at or below 41° F.) until an order for the food item is received, and/or a signal to begin cooking the food item is received. At that point, the cooler 422 may stop providing refrigerated air to theinterior 400 of thefood preparation unit 402. At or about the same time, theheater 416 may transition to the cooking state to cook the food item held within theinterior 400 of the compartment until the food item is cooked. When the food item is cooked, theheater 416 may transition from the cooking state to the warming state to keep the food item warm until the food item is retrieved from thefood preparation unit 402. - The
food preparation unit 402 may optionally include a stone floor or cast iron floor. In some implementations, thefood preparation unit 402 includes electrically radiant elements. In some implementations, thefood preparation unit 402 may include one or more Peltier thermoelectric heater/coolers. In some implementations, thefood preparation unit 402 takes the form of air impingement ovens, including one or more blowers that blow extremely hot air, and optionally a rack with a manifold. In some implementations, thefood preparation unit 402 may include a thermally insulative barrier, preferably a Yttrium, Indium, Manganese, and Oxygen (YInMn) barrier. - In some implementations, a processor enabled device or component (e.g., the control system 218 (see
FIG. 2 )) may be used to implement a temperature control schedule to be used to control the temperature state within one or more of thefood preparation units 402 in thevending kiosk 404. Such temperature states may specify, for example, that theheater 416 heat thefood preparation unit 402 to a cooking state to cook a food item, and then transition to a warming state to keep the cooked food item warm. In some implementations, the temperature control schedule may specify that the compartment be kept in a refrigerated state by the cooler 422 for a first time period, and then specify that the compartment be kept in a cooking state by theheater 416 for a second time period in order to completely cook the food item. In some implementations, the temperature control schedule may be based at least in part on an estimated pick-up time at which an end user will be arriving to pick-up the food item being cooked. As such, the temperature control schedule may be set to minimize the amount of time that elapses after the food item is completely cooked and the expected time at which the end user will arrive to retrieve the item. In some implementations, the temperature control schedule may be modified based upon an updated expected arrival and pick-up time for the end user. In some implementations, the temperature control schedule may be used to transition thefood preparation unit 402 between one or more of the refrigerated state, the cooking state, and the warming state. - In some implementations, the
vending kiosk 404 may include one or more actuators, such as a lockingactuator 426 a, a door-rotatingactuator 426 b, and amagnetic actuator 426 c (collectively, “actuators 426”). Such actuators 426 may be comprised of one or more of a solenoid, a piston and cylinder (e.g., hydraulic, pneumatic), a pair of magnets including at least one electromagnet, or a pair of an electromagnet and a ferrous metal, for example. In some implementations, one or more of the lockingactuator 426 a, the door-rotatingactuator 426 b, and/or amagnetic actuator 426 c may be included in the same structure and/or be implemented by the same actuator. - In some implementations, the locking
actuator 426 a may include alatch component 428 that may be comprised of ahousing 430 and a selectivelyextendable latch 432 that may be used to lock and unlock thedoors 434. In some implementations, the selectivelyextendable latch 432 may be selectively contained within thehousing 430 in a retracted state and selectively extended from one end of thehousing 430 in an extended state. In some implementations, the selectivelyextendable latch 432 may be selectively extended from thehousing 430 when adoor 434 is in the closed configuration (e.g., closed configuration 318) to thereby secure thedoor 434 in a locked state in the closed configuration. In some implementations, the selectivelyextendable latch 432 may engage with an associatedstrike plate 438 that is installed along a portion of theside wall 410 of the correspondingfood preparation unit 402 when the selectivelyextendable latch 432 is in the extended state and thedoor 434 is in the locked state in the closed configuration (e.g., closed configuration 318). - In some implementations, the selectively
extendable latch 432 may transition between the extended state and the retracted state responsive to an actuator signal that may be received, for example, by thelatch component 428 from a processor-enabled device or component. In some implementations, for example, the selectivelyextendable latch 432 may transition to the retracted state when such an actuator signal is received. In such implementations, the selectivelyextendable latch 432 may default to the extended state in the absence of such an actuator signal. In some implementations, the selectivelyextendable latch 432 may include a beveled edge that faces theopening 418 of thefood preparation unit 402. Such a beveled edge may facilitate the selectivelyextendable latch 432 retracting into thehousing 430 sufficiently for thedoor 434 to transition to the closed configuration, at which point the selectivelyextendable latch 432 may transition to the extended state and engage with thestrike plate 438 when the selectivelyextendable latch 432 and thestrike plate 438 align. - In some implementations, the door-rotating
actuator 426 b may be physically coupled to thedoor 434 and/or to thefood preparation unit 402 via a first door-rotatingactuator portion 440 and to a portion of thefood preparation unit 402 via a second door-rotatingactuator portion 442. In such a configuration, the first door-rotatingactuator portion 440 may be used to apply a rotational force to thedoor 434 to physically move thedoor 434 by rotating thedoor 434 about the axis ofrotation 444, thereby transitioning thedoor 434 between anopen configuration 446 and a closed configuration (e.g., closed configuration 318). In some implementations, the door-rotatingactuator 426 b may be responsive to an actuator signal received, for example, from a processor enabled device or component to physically move thedoor 434 to theopen configuration 446 by applying an outward rotational force to thedoor 434. In the absence of such an actuator signal, the first door-rotatingactuator portion 440 may apply an inward rotational force to thedoor 434 to thereby transition thedoor 434 to the closed configuration (e.g., closed configuration 318). - The
magnetic actuator 426 c may be used to apply a linear force on thedoor 434 to transition thedoor 434 between theopen configuration 446 and the closed configuration. In some implementations, themagnetic actuator 426 c may include ahousing 448 mounted along aside wall 410 of thefood preparation unit 402 and/or theinterior surface 450 of thedoor 434, and a pair of magnets, afirst magnet 452 a mounted along the door 434 (e.g., in the housing 448) and asecond magnet 452 b mounted along theinterior surface 450 of thedoor 434. Thefirst magnet 452 a and thesecond magnet 452 b may be aligned when thedoor 434 is in the closed configuration (e.g., closed configuration 318). In some implementations, thefirst magnet 452 a and thesecond magnet 452 b may be of the same polarity such that the pair of magnets provides an outward rotational force on thedoor 434, thereby biasing thedoor 434 to theopen configuration 446. In some implementations, thefirst magnet 452 a and thesecond magnet 452 b may be of opposite polarities such that the pair of magnets provides an inward rotational force on thedoor 434, thereby biasing thedoor 434 to the closed configuration (e.g., closed configuration 318). In some implementations, at least one of thefirst magnet 452 a and thesecond magnet 452 b may be an electromagnet that may be selectively activated, such as, for example, by an actuator signal received from a processor controlled device or component. In such an implementation, the pair of magnets may provide a rotational force when receiving such an actuator signal. In some implementations, thefirst magnet 452 a and thesecond magnet 452 b may be of opposite polarities such that the attractional force between the magnets may keep thedoor 434 in a closed and locked position. In such an implementation, an electromagnet may be employed, along with a circuit that controls a magnetic attraction (e.g., ON/OFF; North/South) of the electromagnet. The electromagnet may be paired with, for example a permanent magnet or a piece of ferrous metal, or another electromagnet. - In some implementations, the
magnetic actuator 426 c may include a housing and a selectively extendable arm (not shown) in which the selectively extendable arm is selectively contained within the housing in a retracted state, and selectively extended from the housing in an extended state. In such an implementation, for example, the selectively extendable arm may be responsive to selectively extend and/or retract based upon an actuator signal received from a processor-enabled device and/or component. For example, in some implementations, when the actuator signal is received, the selectively extendable arm may transition to the extended state, thereby providing an outward rotational force on thedoor 434 when thedoor 434 is in the closed configuration (e.g., closed configuration 318). Such an outward rotational force may be sufficient to physically move thedoor 434 away from the closed configuration (e.g., closed configuration 318). In some implementations, such movement may serve as a visual indication to a consumer of thefood preparation unit 402 that holds the item associated with the consumer. - In some implementations, a processor-enabled device or component (e.g., the control system 218) may be used to control the operation of one or more of the
heater 416, the cooler 422, the lockingactuator 426 a, the door-rotatingactuator 426 b, and/or themagnetic actuator 426 c. The processor-enabled device may include one or more processing units to execute one or more processor-readable instructions, instruction sets, or instruction blocks. The processor-enabled device may include a system memory to store one or more processor-readable instructions, instruction sets, or instruction blocks to be executed by the processor. Such processor-readable instructions, instruction sets, or instruction blocks may be used to generate one or more control signals that may be used to control the various components of thevending kiosk 404, such as the actuators 426. In some implementations, the processor-readable instructions, instruction sets, or instruction blocks may control the operation of various subsystems or components on the vending kiosk, such asheater 416, and/or the cooler 422. In some implementation, some or all of the processor-readable instructions, instruction sets, or instruction blocks may be executed by an off-board processor-enabled device. In such an implementation, the resulting control signals may be transmitted to the vending kiosk via a communication network. -
FIG. 5 shows amethod 500 that may be used to transmit information to akiosk 102 to operate in aconstellation mode 120 in a multi-modalfood preparation system 100, according to one illustrated implementation. Themethod 500 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218 and/or the remoteorder processing system 208, and starts at 502. - At 504, a processor-based device, for example, the remote
order processing system 208, may transmit instructions to thekiosk 102 to operate inkiosk vending mode 110. Thekiosk 102 may be located at avending location 118, and may remain, stationary, at thevending location 118 while it operates in thekiosk vending mode 110. Thekiosk 102 may include one or morefood preparation units 104 that may each be used to prepare and/or vend one or more instances offood items 106 as a combined cooking andvending vehicle 102 a. In some implementations, thefood preparation unit 104 may include one or more heaters that may be used to selectively heat thefood preparation unit 104. Such a heater may be used to cook or to maintain the warmth of thefood item 106 contained or stored within thefood preparation unit 104. - At 506, the instructions transmitted at 504 may cause the kiosk to accept orders for instances of food items, and/or to vend instances of food items that are provided directly to customers. In some implementations, such orders may be received from a wireless communication network, for example, via a
wireless communication system 108. In some implementations, thekiosk 102 may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., asmart phone 112 a or atablet 112 b) directly to thekiosk 102. In some implementations, thekiosk 102 may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to thekiosk 102. - In response to receiving each order, the
kiosk 102 may selectively warm or heat one or more of thefood preparation units 104 via the associated heaters. The warming of one of thefood preparation units 104 may be used to maintain a temperature of an instance of afood item 106 held within thefood preparation unit 104. The heating of one of thefood preparation units 104 may be used to cook an instance of afood item 106 held within thefood preparation unit 104. - In some instances, the
kiosk 102 may vend one or more food items to customers by providing each customer with access to the appropriatefood preparation unit 104 when the customer arrives at thevending location 118. In some implementations, the access may be provided, for example, by the customer entering an order and/or identification code into a user interface that may be incorporated into thekiosk 102. In some instances, the consumer may access the appropriatefood preparation unit 104 upon arriving at thevending location 118, for example, by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., thesmartphone 112 a) associated with the consumer. In some implementations, the customer may enter the order and/or identification code into theuser input device 222 that may be accessible on avending kiosk 202 and/orpurchasing kiosk 204, which may be located at thevending location 118. In some instances, thekiosk 102 may detect the presence of a device (e.g., thesmartphone 112 a) associated with the consumer at thevending location 118 and provide access to the appropriatefood preparation unit 104 in response. - At 508, the
method 500 terminates, for example until invoked again. Alternatively, themethod 500 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 6 shows amethod 600 of operating a multi-modalfood preparation system 100 in aconstellation mode 120, according to one illustrated implementation. Themethod 600 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218 and/or the remoteorder processing system 208, and starts at 602. - At 604, a processor-enabled device, such as, for example, the remote
order processing system 208, may transmit instructions to akiosk 102 to operate as ahub 136 in aconstellation mode 120. Such instructions may include providing information regarding alocation 134 at which thekiosk 102 is to serve as ahub 136. In some implementations, the instructions may include a description of thegeographic area 138 for which thekiosk 102 is to serve as ahub 136. In some implementations, such instructions may include information regarding one or more delivery vehicles 140 that may provide deliveries from thekiosk 102 todelivery destinations 142 within thegeographic area 138. Such vehicle information may include, for example, type of vehicle, location, information regarding the current driver of the delivery vehicle 140, amount of time on-shift, amount of time remaining in shift, carrying capacity of the delivery vehicle 140, and other such similar information. - In response to receiving the transmitted instructions, the
kiosk 102 may begin to prepare one ormore food items 106 that may be delivered to customers in thegeographic area 138 surrounding thelocation 134. Such preparation may include, for example, heating the one or more food items in the respectivefood preparation unit 104. In some implementations, thefood preparation unit 104 may warm the one or food items once the one or more food items are prepared to maintain the temperature of the one or more prepared food items at a desired temperature. - At 606, a processor-enabled device, such as, for example, the remote
order processing system 208 and/or thecontrol system 218 on thekiosk 102, may transmit information to one or more delivery vehicles 140. In some implementations, such information may include instructions to retrieve one ormore food items 106 from thekiosk 102, and/or instructions to deliver the retrievedfood items 106 to one ormore delivery destinations 142. In response to receiving such information, the delivery vehicle 140 may be dispatched to thekiosk 102 operating as a hub 115. In some implementations, the dispatch of the delivery vehicle to thekiosk 102 operating as a hub 115 may be based on one or more criteria, such as, for example, the readiness of an order to be delivered by the delivery vehicle 140, an estimated travel time from thekiosk 102 operating as a hub 115 to adelivery destination 142 using a single destination delivery route, an estimated travel time from thekiosk 102 operating as a hub 115 to adelivery destination 142 located on a multiple destination delivery route, and a delivery time period for delivering an order to an associateddelivery destination 142, in which the delivery time period may provide a threshold time by which delivery of the order is to be completed. In some implementations, the instructions transmitted to the delivery vehicle 140 may include, for example, destination information for thedelivery destinations 142 associated with each of the respective orders of food items to be delivered. In some implementations, the instructions transmitted to the delivery vehicle 140 may include route information to thelocation 134 of thekiosk 102 and/or route information from thelocation 134 of thekiosk 102 to thedelivery destination 142 associated with an order for an instance of a food item. - At 608, the
method 600 terminates, for example until invoked again. Alternatively, themethod 600 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 7 shows amethod 700 of operating a multi-modalfood preparation system 100 in a cook enroute mode 130, according to at least one illustrated implementation. Themethod 700 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218 and/or the remoteorder processing system 208, and starts at 702. - At 704, a processor-enabled device, such as, for example, the remote
order processing system 208, may transmit instructions to akiosk 102 to operate in a cook enroute mode 130. Such instructions may cause thekiosk 102 to enter a mode of operation in which thekiosk 102 is operable to prepare and/or cook food items for delivery as thekiosk 102 travels betweendifferent delivery destinations 142. In such a mode, thekiosk 102 may serve as a cooking and delivery vehicle. - At 706, a processor-enabled device, such as, for example, the remote
order processing system 208, may transmit information to thekiosk 102 regarding one or more food items to prepare and/or deliver. In some implementations, such information may include preparation and/or cooking instructions to prepare and/or cook food items to be delivered by thekiosk 102. In some implementations, thekiosk 102 may selectively warm or heat one or more of thefood preparation units 104 via the associated heaters to warm and/or prepare an instance of a food item ordered by the consumer in response to receiving the information in 706. The warming of one of thefood preparation units 104 may be used to maintain a temperature of an instance of afood item 106 held within thefood preparation unit 104. The heating of one of thefood preparation units 104 may be used to cook an instance of afood item 106 held within thefood preparation unit 104. In such instances, after the instance of thefood item 106 is cooked, the associatedfood preparation unit 104 may change selectively warm the cookedfood item 106 to maintain the temperature of the cookedfood item 106 unit is retrieved by a consumer. The process for cooking a food item ordered by a consumer may be based, at least in part, on an estimate of travel time for thekiosk 102 to travel to the consumer. - At 708, a processor-enabled device, such as, for example, the remote
order processing system 208, may transmit information to thekiosk 102 regarding a destination location to deliver the prepared food item. As such, the information transmitted to thekiosk 102 may include, for example, destination information for thedelivery destinations 142 associated with each of the respective orders of food items to be delivered. In some implementations, the instructions transmitted to the kiosk may include route information to thedelivery destination 142 associated with an order for an instance of a food item. In some implementations, such route information may include a single-delivery route and/or a multiple-delivery route for thekiosk 102 to traverse in order to deliver one or more instances of food items tosingle delivery destination 142 and/or tomultiple delivery destinations 142, respectively. In some implementations, the information in 708 regarding thedelivery destinations 142 may be included in the same transmission and/or set of transmission that included the information in 706 regarding one or more food items to prepare and/or deliver. - At 710, the
method 700 terminates, for example until invoked again. Alternatively, themethod 700 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 8 shows amethod 800 of operating a multi-modalfood preparation system 100 in which akiosk 102 prepares and/or vends instances of food items and is replenished with one or more supplies, according to at least one illustrated implementation. Themethod 800 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218 and/or the remoteorder processing system 208, and starts at 802. - At 804, a processor-enabled device, such as, for example, the
control system 218 and/or the remoteorder processing system 208, may receive an order for an instance of a food item contained within one of thefood preparation units 104 in akiosk 102. Such akiosk 102 may be operating in any one of thekiosk vending mode 110, the constellation mode, and/or cook enroute mode 130. In some implementations, the processor-enabled device may receive orders transmitted from one or more customer processor-based communications devices 112 (e.g., asmart phone 112 a or atablet 112 b) directly to the processor-enabled device (e.g., the remoteorder processing unit 114, and/or the control system 218). In some implementations, the processor-enabled device may receive orders entered into a point-of-sale system 113 that may be incorporated into or communicatively coupled to thekiosk 102. In some implementations, a remoteorder processing unit 114 may receive orders for instances of food items from one or more consumers and transmit such orders via the wireless communications network (e.g., wireless communications network 116) to thekiosk 102 via thewireless communication system 108. - At 806, a processor-enabled device, such as, for example, the
control system 218 and/or the remoteorder processing system 208, may selectively raise and/or maintain a temperature within thefood preparation unit 104 to heat and/or maintain the temperature of a food item contained within thefood preparation unit 104. The warming of one of thefood preparation units 104 may be used to maintain a temperature of an instance of afood item 106 held within thefood preparation unit 104. The heating of one of thefood preparation units 104 may be used to cook an instance of afood item 106 held within thefood preparation unit 104. In such instances, after the instance of thefood item 106 is cooked, the associatedfood preparation unit 104 may change selectively warm the cookedfood item 106 to maintain the temperature of the cookedfood item 106 unit is retrieved by a consumer. - At 808, the
kiosk 102 and/or delivery vehicle 140 may vend the selected food item from thefood preparation unit 104. In some implementations, thekiosk 102 may provide each customer with access to the appropriatefood preparation unit 104 when the customer arrives at thevending location 118 and/or when thekiosk 102 and/or the delivery vehicle 140 arrives at adelivery destination 142. In some implementations, the access may be provided, for example, by the customer entering an order and/or identification code into a user interface that may be incorporated into thekiosk 102 and/or the delivery vehicle 140. In some instances, for example, the consumer may access the appropriatefood preparation unit 104 upon arriving at thevending location 118 by entering an order and/or identification code into a user interface that may be accessible via the mobile device (e.g., thesmartphone 112 a) associated with the consumer. In some implementations, the customer may enter the order and/or identification code into theuser input device 222 that may be accessible on avending kiosk 202 and/orpurchasing kiosk 204, which may be located at thevending location 118. In some instances, thekiosk 102 may detect the presence of a device (e.g., thesmartphone 112 a) associated with the consumer at thevending location 118 and provide access to the appropriatefood preparation unit 104 in response. - At 810, the
kiosk 102 may transmit information via awireless communication system 108 to an off-site processor-enabled device, such as, for example, thereplenishment server 126. Such information may include, for example, such as, for example, the amount of supplies (e.g., instances of food items 106) currently available at thekiosk 102, the number of instances offood items 106 the kiosk has vended, the rate at which thekiosk 102 is using the supplies and/or vending instances offood items 106, the rate at which thekiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by thekiosk 102, and/or a signal received from thekiosk 102 indicating a need for replenishment of one or more supplies. - At 812, the kiosk may be replenished, such as, for example, by the
vehicle 124. In some instances, in response to receiving such instructions, thevehicle 124 may be dispatched to thevending location 118 to replenish thekiosk 102. Once thevehicle 124 reaches thevending location 118, thekiosk 102 may receive replenishment from thevehicle 124 based at least in part of the information received by thereplenishment server 126. In some instances, in response to receiving such instructions, thekiosk 102 may be dispatched to receive replenishment at thereplenishment location 144. - At 814, the
method 800 terminates, for example until invoked again. Alternatively, themethod 800 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 9 shows amethod 900 of operating a multi-modalfood preparation system 100 in which thekiosk 102 is replenished with one or more supplies, according to at least one illustrated implementation. Themethod 900 can, for example, be executed by one or more processor-based devices, for instance the remoteorder processing system 208 and/or thereplenishment server 126, and starts at 902. - At 904, a processor-enabled device, such as, for example, the remote
order processing system 208 and/or thereplenishment server 126, may receive information transmitted from thekiosk 102. Such information may include, for example, such as, for example, the amount of supplies (e.g., instances of food items 106) currently available at thekiosk 102, the number of instances offood items 106 the kiosk has vended, the rate at which thekiosk 102 is using the supplies and/or vending instances offood items 106, the rate at which thekiosk 102 is expected to use the supplies in the future, and/or a signal received from thekiosk 102 indicating a need for replenishment of one or more supplies. - At 906, a processor-enabled device, such as, for example, the remote
order processing system 208 and/or thereplenishment server 126, may receive information regarding pending orders to be processed by thekiosk 102. Such information may be received, for example, from thekiosk 102 and/or from the remoteorder processing system 208. The pending order information may include, for example, the number of pending orders for thekiosk 102, the number of each type offood item 106 that is currently part of a pending order for the kiosk, the amount of time for thekiosk 102 to prepare and fulfill each pending order, the quantity of each supply that will be needed to prepare and fulfill each pending order, an estimated time by which each pending order and/or the set of pending orders will be completed, and/or an each pending order will be delivered. - At 908, a processor-enabled device, such as, for example, the remote
order processing system 208 and/or thereplenishment server 126, may predict future demand at thekiosk 102. For example, in some implementations, the processor-enabled device may include aneural network 128 or other learning machine that may be used to predict future demand at thekiosk 102. Such aneural network 128 may receive some or all of the information listed above as inputs to determine future demand. In some implementations, theneural network 128 may use training data in making such a calculation. Such training data may represent actual demand for instances of thefood item 106 from thekiosk 102 that may have been experienced at previous times at the same or similar locations. As such, theneural network 128 may be able to take into account information regarding the sales of instances offood items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather. Theneural network 128 may use this training data to predict the demand for the instances offood items 106 in the future. - At 910, a processor-enabled device, such as, for example, the remote
order processing system 208 and/or thereplenishment server 126, may dispatch avehicle 124 to replenish thekiosk 102 with one or more supplies and/or food items. - At 912, the
method 900 terminates, for example until invoked again. Alternatively, themethod 900 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 10 shows amethod 1000 of operating a multi-modalfood preparation system 100 in which instructions are transmitted to avehicle 124 to replenish avending kiosk 102, according to at least one illustrated implementation. Themethod 1000 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218, the remoteorder processing system 208, and/or thereplenishment server 126, and starts at 1002. - At 1004, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may determine an amount of time to replenish thekiosk 102 with one or more supplies and/or food items. Such a determination of an estimated time to replenish one or more supplies and/or food items at thekiosk 102 may be based, at least in part, on the time to transfer the one or supplies and/or the instances offood items 106 from thevehicle 124 to thekiosk 102, and/or on the amount of time for thevehicle 124 to travel to the location of thekiosk 102. - At 1006, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may determine the amount of time before thekiosk 102 exhausts one or more supplies and/or food items. Such a determination may be based one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106) currently available at thekiosk 102, the number of instances offood items 106 the kiosk has vended, the rate at which thekiosk 102 is using the supplies and/or vending instances offood items 106, the rate at which thekiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by thekiosk 102, and/or a signal received from thekiosk 102 indicating a need for replenishment of one or more supplies. In some implementations, the determination of when thekiosk 102 may exhaust one or more supplied and/or food items may take into account information regarding the sales of instances offood items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather. - At 1008, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may transmit instructions to thevehicle 124 to dispatch thevehicle 124 to replenish thekiosk 102. Such instructions may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thevehicle 124 should take to thekiosk 102. In some implementations, the instructions may be transmitted to thevehicle 124 from one or more sources, such as, for example, thecontrol system 218, the remoteorder processing system 208, and/or thereplenishment server 126, or some other remote server, via awireless communications network 116. Once thevehicle 124 reaches thevending location 118, thekiosk 102 may receive replenishment from thevehicle 124 for the one or more supplies and/or food items. - At 1010, the
method 1000 terminates, for example until invoked again. Alternatively, themethod 1000 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 11 shows amethod 1100 of operating a multi-modalfood preparation system 100 in which instructions are transmitted to akiosk 102 to travel to areplenishment location 144, according to at least one illustrated implementation. Themethod 1100 can, for example, be executed by one or more processor-based devices, for instance thecontrol system 218, the remoteorder processing system 208, and/or thereplenishment server 126, and starts at 1102. - At 1104, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may determine an amount of time to replenish thekiosk 102 with one or more supplies and/or food items. Such a determination of an estimated time to replenish one or more supplies and/or food items at thekiosk 102 may be based, at least in part, on the time to transfer the one or supplies and/or the instances offood items 106 from thevehicle 124 to thekiosk 102, and/or on the amount of time for thevehicle 124 to travel to the location of thekiosk 102. - At 1106, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may determine the amount of time before thekiosk 102 exhausts one or more supplies and/or food items. Such a determination may be based one or more factors, such as, for example, the amount of supplies (e.g., instances of food items 106) currently available at thekiosk 102, the number of instances offood items 106 the kiosk has vended, the rate at which thekiosk 102 is using the supplies and/or vending instances offood items 106, the rate at which thekiosk 102 is expected to use the supplies in the future, pending orders to be fulfilled by thekiosk 102, and/or a signal received from thekiosk 102 indicating a need for replenishment of one or more supplies. In some implementations, the determination of when thekiosk 102 may exhaust one or more supplied and/or food items may take into account information regarding the sales of instances offood items 106 during specific days of the week, at a specific time and/or time range, during a special event, date, or holiday, and/or during one or more types of weather. - At 1108, a processor-enabled device, such as, for example, the
control system 218, the remoteorder processing system 208, and/or thereplenishment server 126, may generate instructions to thekiosk 102 to cause thekiosk 102 to travel to thereplenishment location 144. A building (e.g., a warehouse) or a vehicle (e.g., a delivery vehicle) may be at thereplenishment location 144 and may hold one or more supplies that may be used to replenish thekiosk 102. The instructions received by thekiosk 102 may include, for example, the type of supplies to be replenished, the amount of each supply to be replenished, and a route that thekiosk 102 should take. In some implementations, the instructions may be transmitted to thekiosk 102 from one or more sources, such as, for example, the remoteorder processing system 208, thereplenishment server 126, and/or some other remote server, via awireless communications network 116. In response to receiving such instructions, thekiosk 102 may proceed along a replenishment route (e.g., thesecond replenishment route 132 b) as indicated by the instructions to travel to thereplenishment location 144. In some implementations, the replenishment route may be determined by the remoteorder processing system 208,replenishment server 126, and/or by a third-party server, and transmitted to thekiosk 102. - At 1110, the
method 1100 terminates, for example until invoked again. Alternatively, themethod 1100 may repeat continuously or repeatedly, or may execute as multiple instances of a multi-threaded process. -
FIG. 12 shows a schematic, block diagram of a processor-enableddevice 1200, such as thecontrol system 218, the remoteorder processing system 208, and/or thereplenishment server 126. The processor-enableddevice 1200 may take the form of any current or future developed computing system capable of executing one or more instruction sets. The processor-enableddevice 1200 includes aprocessing unit 1202, asystem memory 1204, and asystem bus 1206 that communicably couples various system components including thesystem memory 1204 to theprocessing unit 1202. The processor-enableddevice 1200 will at times be referred to in the singular herein, but this is not intended to limit the embodiments to a single system, since in certain embodiments, there will be more than one system or other networked computing device involved. Non-limiting examples of commercially available systems include, but are not limited to, an Atom, Pentium, or 80×86 architecture microprocessor as offered by Intel Corporation, a Snapdragon processor as offered by Qualcomm, Inc., a PowerPC microprocessor as offered by IBM, a Sparc microprocessor as offered by Sun Microsystems, Inc., a PA-RISC series microprocessor as offered by Hewlett-Packard Company, an A6 or A8 series processor as offered by Apple Inc., or a 68xxx series microprocessor as offered by Motorola Corporation. - The
processing unit 1202 may be any logic processing unit, such as one or more central processing units (CPUs), microprocessors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), programmable logic controllers (PLCs), etc. Unless described otherwise, the construction and operation of the various blocks shown inFIG. 12 are of conventional design. As a result, such blocks need not be described in further detail herein, as they will be understood by those skilled in the relevant art. - The
system bus 1206 can employ any known bus structures or architectures, including a memory bus with memory controller, a peripheral bus, and a local bus. Thesystem memory 1204 includes read-only memory (“ROM”) 1208 and random access memory (“RAM”) 1210. A basic input/output system (“BIOS”) 1212, which can form part of theROM 1208, contains basic routines that help transfer information between elements within the processor-enableddevice 1200, such as during start-up. Some embodiments may employ separate buses for data, instructions and power. - The processor-enabled
device 1200 also includes one or more internalnontransitory storage systems 1214. Such internalnontransitory storage systems 1214 may include, but are not limited to, any current or future developedpersistent storage device 1216. Suchpersistent storage devices 1216 may include, without limitation, magnetic storage devices such as hard disc drives, electromagnetic storage devices such as memristors, molecular storage devices, quantum storage devices, electrostatic storage devices such as solid state drives, and the like. - The processor-enabled
device 1200 may also include one or more optional removablenontransitory storage systems 1218. Such removablenontransitory storage systems 1218 may include, but are not limited to, any current or future developed removablepersistent storage device 1220. Such removablepersistent storage devices 1220 may include, without limitation, magnetic storage devices, electromagnetic storage devices such as memristors, molecular storage devices, quantum storage devices, and electrostatic storage devices such as secure digital (“SD”) drives, USB drives, memory sticks, or the like. - The one or more internal
nontransitory storage systems 1214 and the one or more optional removablenontransitory storage systems 1218 communicate with theprocessing unit 1202 via thesystem bus 1206. The one or more internalnontransitory storage systems 1214 and the one or more optional removablenontransitory storage systems 1218 may include interfaces or device controllers (not shown) communicably coupled between nontransitory storage system and thesystem bus 1206, as is known by those skilled in the relevant art. Thenontransitory storage systems storage devices device 1200. Those skilled in the relevant art will appreciate that other types of storage devices may be employed to store digital data accessible by a computer, such as magnetic cassettes, flash memory cards, RAMs, ROMs, smart cards, etc. - Program modules can be stored in the
system memory 1204, such as anoperating system 1222, one ormore application programs 1224, other programs or modules 1226,drivers 1228 andprogram data 1230. - The
application programs 1224 may include, for example, one or more machine executable instruction sets (i.e.,mode module 1224 a) capable of providing instructions to one ormore kiosks 102 to transition between thekiosk vending mode 110, theconstellation mode 120, and/or the cook enroute mode 130. Theapplication programs 1224 may further include one or more machine executable instructions sets (i.e.,cooking module 1224 b) capable of outputting queuing and cooking instructions to thekiosks 102 and/or delivery vehicles 140. - In some implementations, the
application programs 1224 may include one or more machine executable instruction sets (i.e.,replenishment module 1224 c) capable of determining a time and/or time range during which one or more supplies and/or food items in akiosk 102 may be replenished by avehicle 124 and/or by traveling to areplenishment location 144. - In some embodiments, the processor-enabled
device 1200 operates in an environment using one or more of thenetwork interfaces 1232 to optionally communicably couple to one or more remote computers, servers, display devices, such as the remoteorder processing system 208, thereplenishment server 126, and/or other devices via one or more communications channels, for example, one or more networks such as thecommunications network 234. These logical connections may facilitate any known method of permitting computers to communicate, such as through one or more LANs and/or WANs. Such networking environments are well known in wired and wireless enterprise-wide computer networks, intranets, extranets, and the Internet. -
FIGS. 13A-13C show avending kiosk 1300, according to at least one illustrated embodiment. - The
vending kiosk 1300 includes ahousing 1302 and a plurality ofvending compartments vending kiosk 1300 may be fixed at a location, for instance physically secured to the ground or a building or other structure, or secured by weight. Alternatively, thevending kiosk 1300 may be mobile, having one or more wheels, tracks, treads, etc., and propulsion source (e.g., electric motor, internal combustion engine), for example as in the previously described implementations. - Each of the vending compartments 1304 has an associated front or customer-facing
door 1306 and a back orservice door 1308. The front or customer-facingdoor 1306 is readily accessible by a customer from an exterior of thevending kiosk 1300. The back orservice door 1308 does not need to be, and typically is not, readily accessible by a customer from anexterior 1309 of thevending kiosk 1300, although it may be possible for the customer to touch the back orservice door 1308 once the customer gains access to an interior 1310 (only one shown inFIG. 13A ) of the respective compartment. The front or customer-facingdoors 1306 are operable to selectively provide and deny access to an interior 1310 of the vending compartments 1304 from theexterior 1309 of thevending kiosk 1300. The rear orservice doors 1306 are operable to selectively provide and deny access to an interior 1310 of the vending compartments 1304 from an exterior thereof, and typically from an interior 1312 (FIG. 13C ) of thevending kiosk 1300. - As best illustrated in
FIG. 13B , thevending kiosk 1300 includes a customer oruser interface 1314, typically accessible from theexterior 1309 of thevending kiosk 1300. The customer oruser interface 1314 provides input and, or output to customers or other users. The customer oruser interface 1314 may include any one or more of adisplay 1314 a, keypad orkeyboard 1314 b, near field communications radio andantenna 1314 c, magnetic stripe reader orchip reader 1314 d,camera 1314 e, bill validator, coin slot, etc. Such allows thevending kiosk 1300 to recognize a customer or other user or otherwise implement a transaction. For example, the near field communications radio andantenna 1314 c may detect and recognize an electronic device (e.g., smartphone) associated with a customer who previously placed an order, and who has arrived at thevending kiosk 1300 to pick up the order. Also for example, the near field communications radio andantenna 1314 c may interact with an electronic device (e.g., smartphone) to receive an order and then to complete a purchase transaction with a customer who is currently at thevending kiosk 1300 to place the order. Also for example, thedisplay 1314 a (e.g., via a graphical user interface) and, or keypad orkeyboard 1314 b may be used to receive an order, or to receive information that identifies a customer who has arrived at thevending kiosk 1300 to pick up a previously placed order. The customer may, for instance, enter an identifier or PIN. Also for example, thecamera 1314 e may capture one or more images to implement a purchase transaction or identify a customer who has arrived at thevending kiosk 1300 to pick up a previously placed order. The camera may, for instance, capture an image of a machine-readable symbol (e.g., two-dimensional symbol, barcode symbol) displayed via a display of an electronic device (e.g., smartphone) associated with the customer who placed the order. The camera may, also for instance, capture an image of a face or iris of the customer who placed the order, and perform facial or iris recognition for a customer who has arrived at thevending kiosk 1300 to pick up. Other forms of biometric authentication can be employed via various sensors, for instance finger-print recognition. Also for example, the magnetic stripe reader orchip reader 1314 d may read information from a financial medium (e.g., credit card, debit card, gift card) to implement a purchase transaction. Also for example, the bill or currency validator or coin slot (not shown) may be used to implement a purchase transaction. - As best illustrated in
FIG. 13B , thevending kiosk 1300 includes an access (e.g.,supply doorway 1316 and supply door 1318) that provide access to load items (e.g., prepared food items, ingredients, other items) into thevending kiosk 1300. Thesupply door 1318 may, for example take the form of a rollup door, as illustrated, or may take any other form of door, for instance a door that pivots on hinges, or a door that slides. A rollup door advantageously reduces the overall footprint required for thevending kiosk 1300 and servicing of the same. - As best illustrated in
FIG. 13B , asupply rack 1320 may be used to load items (e.g., prepared food items, ingredients, other items) into thevending kiosk 1300. For example, thesupply doorway 1316 may be sized to receive all or a portion of thesupply rack 1320 therethrough, for instance to position thesupply rack 1320 in a refrigerated supply area 1322 (FIG. 3C ) of thevending kiosk 1300. - As best illustrated in
FIG. 13C , thesupply rack 1320 may include one or more, compartments or trays 1322 (only one called out), each of which can hold one or more prepared food items, ingredients, other items. The compartments ortrays 1322 may, or may not, have respective doorways and, or doors, which are operable to selectively provide and deny access to an interior of the compartment ortrays 1322 from an exterior thereof. Thesupply rack 1320 may, in at least some implementations, itself provide a refrigerated interior environment, for example having one or more compressors or air conditioners, and walls, floor and ceiling of the supply rack may be thermally insulated. In at least some implementations, thesupply rack 1320 may at least in all or in part, rely on an air condition environment of thevending kiosk 1300 to cool the contents of thesupply rack 1320. - In some implementations, the
supply rack 1320 includes one or more mechanisms selectively operable to at least partially eject the contents of the compartment or trays. For example, each compartment or tray may include a conveyor (e.g., conveyor belt) 1324 (only one called out), peel, paddle, or pusher bar, and an actuator (e.g., electric motor or solenoid) drivingly coupled with, or without a transmission, to cause movement of the conveyor (e.g., conveyor belt) 1324, peel, paddle, or pusher bar. - As best illustrated in
FIGS. 13B and 13C , thevending kiosk 1300 may include one or moreinput transport elevators 1326 that are operable to transport the contents (e.g., prepared food items, ingredients, other items) from the compartments ortrays 1322 of thesupply rack 1320 to one or more cooking units (e.g., ovens) 1328 (FIG. 13C ). Theinput transport elevators 1326 may include one or more conveyors 1330 (e.g.,conveyor belt 1330 a andelectric motor 1330 b drivingly coupled to theconveyor belt 1330 a), peels, trays, etc., operable to transfer the contents of the compartments ortrays 1322 of thesupply rack 1320 to the cooking unit(s) (e.g., oven(s)) 1328, for example along a first axis (e.g., horizontal axis) 1332. Theinput transport elevators 1326 may include one ormore conveyors 1334 are positionable to closely locate or position a first end thereof proximate or adjacent the compartment ortrays 1322 of thesupply rack 1320 or proximate or adjacent conveyors orejection mechanisms 1324 of thesupply rack 1320. The actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred. Theinput transport elevators 1326 may include one or more rails and, or, transmissions (e.g., chain drive, belt drive) 1334 a andmotors 1334 b coupled to move the conveyor(s) 1330 a along a second axis (e.g., vertical axis) 1336, different from thefirst axis 1332. Alternatively or additionally, thevending kiosk 1300 or thesupply rack 1320 may include one or more robotic appendages and actuators (e.g., electric motor or solenoid) operable to transport the contents (e.g., prepared food items, ingredients, other items) from the compartments ortrays 1322 of thesupply rack 1320 to one or more cooking units (e.g., ovens) 1328. - As best illustrated in
FIG. 13C thevending kiosk 1300 includes the one ormore cooking units 1328, for instance one or more ovens. The cooking unit(s) 1328 may take any of a variety of forms. As used herein the term “cooking units” 1328 includes any device for the partial or complete cooking of one or more food products. Additionally, while the term “oven” may be used interchangeably with the term “cooking unit” herein, such usage should not limit the applicability of the systems and methods described herein to only foods which can be prepared in an oven. For example, one or more burners, either gas or electric or inductive, a hot skillet surface or griddle, a deep fryer, a microwave oven, rice cooker, sous vide cooker, and/or toaster can be considered a “cooking unit” that is included within the scope of the systems, methods, and apparatuses described herein. Some implementations may employ other types of food preparation units in addition to, or in place of cooking units, for example other types of equipment used to prepare food items, such as equipment related to cooled or chilled foods, such as may be used to prepare smoothies, frozen yogurt, ice cream, and beverages (e.g., fountain beverages). Further, the food preparation unit may be able to control more than temperature. For example, some food preparation units may control pressure and/or humidity. Further, some food preparation units may control airflow therein, thus able to operate in a convective cooking mode if desired, for instance to decrease cooking time. - In the illustrated implementation, the
cooking units 1328 are conveyor ovens with aconveyor 1328 a that provides atransport path 1328 b through acooking chamber 1328 c. Thecooking unit 1328 is open at opposed ends of thetransport path 1328 b. Thecooking units 1328 includes one ormore heating elements 1328 d, which can take any of a large variety of forms, and can be located in any of a large variety of locations. - The one or more conveyors 1320 a of the
input transport elevators 1326 are positionable to closely locate or position a second end thereof proximate or adjacent thecooking units 1328 or proximate or adjacent conveyors oringress mechanisms 1328 a of thecooking units 1328. The actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred. - As best illustrated in
FIG. 13C , thevending kiosk 1300 may include one or moreoutput transport elevators 1330 that are operable to transport the contents (e.g., prepared food items, ingredients, other items) from the one or more cooking units (e.g., ovens) 1328 to the compartments 1304 of thevending kiosk 1300. Theoutput transport elevators 1330 may include one or more conveyors (e.g.,conveyor belt 1330 a andelectric motor 1330 b drivingly coupled to theconveyor belt 1330 a), peels, trays, etc., operable to transfer the contents of the cooking unit(s) (e.g., oven(s)) 1328 to the compartments 1304 of thevending kiosk 1300, for example along a first axis (e.g., horizontal axis) 1332. Theoutput transport elevators 1330 may include one or more rails and, or, transmissions (e.g., chain drive, belt drive) 1330 c andmotors 1330 d coupled to move the conveyor(s) 1330 a along a second axis (e.g., vertical axis) 1334, different from thefirst axis 1332. Theoutput transport elevators 1330 may include one ormore conveyors 1330 a that are positionable to closely locate or position a first end thereof proximate or adjacent thecooking units 1328 or proximate or adjacent conveyors oringress mechanisms 1328 a of thecooking units 1328. The actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight) of the object to be transferred. The one ormore conveyors 1330 a of theoutput transport elevators 1330 are positionable to closely locate or position a second end thereof proximate or adjacent the compartments 1304 of thevending kiosk 1300 or adjacent conveyors or ingress mechanisms, if any, of the compartments 1304 of thevending kiosk 1300. The actual spacing may depend on the type (e.g., dough, crust, rigid, flaccid) and, or state (e.g., raw, cooked, gelled) of the object to be transferred, as well as a size (e.g., length) and, or weight of the object to be transferred. Alternatively or additionally, thevending kiosk 1300 or thesupply rack 1320 may include one or more robotic appendages and actuators (e.g., electric motor or solenoid) operable to transport the contents (e.g., prepared food items, ingredients, other items) from the one or more cooking units (e.g., ovens) 1328 to the compartments 1304 of thevending kiosk 1300. While not shown, thevending kiosk 1300 can include one or more exhaust ducts, and optionally fans, operable to exhaust smoke and, or, waste heat generated by thecooking units 1328 from thevending kiosk 1300. - The
vending kiosk 1300 may includethermal insulation 1336, for example separating the cooking units from the air conditioned area. Thethermal insulation 1336 may surround a portion or all of the air conditionedarea 1322.Thermal insulation 1336 may additionally, or alternatively surround all or a portion of thecooking units 1328.Thermal insulation 1336 may additionally, or alternatively surround all or a portion of the compartments 1304 of thevending kiosk 1300. Thethermal insulation 1336 may take a variety of forms including, for example, fiberglass batten, vacuum. - The
vending kiosk 1300 may include arefrigeration system 1338, for example one or more compressors, reservoirs, condensation coil (collectively 1338 a) and, or heat exchanger. The refrigeration system may include one ormore ducts 1338 b coupled to dispense cooled or refrigerated air into the air conditioned or refrigeratedarea 1322. Therefrigeration system 1338 may include one or more ducts (not shown) coupled to dispense warm or waste air into the exterior 1309 (FIG. 13A ) from thevending kiosk 1300. - The implementation illustrated and described with respect to
FIGS. 13A-13C advantageously isolates the compartments 1304 of thevending kiosk 1300 from thecooking units 1328. Such can be a significant improvement in safety, preventing customers from accidently coming into contact with hot surfaces of a cooking unit (e.g., oven) 1328. Additionally, one or more surfaces of the compartments 1304 of thevending kiosk 1300 may be thermally insulated from the cooking unit(s) 1328 to ensure that the portions of the compartments 1304 that a customer or other user might touch will be sufficiently cool as to avoid damage to the skin or even avoid damage to garments worn by the customer or other user. - The vending kiosk can include of a first set of latches or locks 1340 (only one latch or lock called out) that selectively latch/unlatch or lock/unlock the front or customer-facing
door 1306 and a second set of latches or locks 1342 (only one latch or lock called out) that selectively latch/unlatch or lock/unlock the back orservice door 1308. The latches orlocks - The
vending kiosk 1300 can include one or more hardware processor-based control systems 1344 (e.g., circuitry, integrated circuit) of thevending kiosk 1300, which can execute logic or processor-executable instructions. The processor-basedcontrol system 1344 can include one or more processors, for example one or more of: one ormore microprocessors 1344 a with one or more cores, one or more microcontrollers, one or more application specific integrated circuits (ASICs), one or more field programmable gate arrays (FPGAs), one or moregraphic processor units 1344 b, etc. The processor-basedcontrol system 1344 can include one or more computer- or processor-readable media (e.g., volatile memory, non-volatile memory, spinning media such as magnetic hard disks, optical disks), for example one or more of: one or more read only memories (ROM) 1344 c, one or more random access memories (RAM) 1344 d, one ormore Flash memories 1344 e, etc. The processor-basedcontrol system 1344 can include one ormore motor controllers 1344 f, operable to convert instructions from theprocessors control system 1344 can include one ormore motor controllers 1344 g, operable to convert instructions from theprocessors control system 1344 can include one or more communications interfaces 1344 h, for example one or more radios and associated antennas, and, or hardwired communications ports, to provide communications between thevending kiosk 1300 and devices external therefrom. - In particular, the
vending kiosk 1300 is operable to ensure that the front or customer-facingdoor 1306 and any given vending compartment 1304 is only unlatched or unlocked or opened when the back orservice door 1308 or the same respective vending compartment 1304 is latched, locked, or closed. This can ensure that a customer or other user cannot reach into the area in which the cooking units 1328 (e.g., ovens), or even into the area in which theoutput elevator 1330 is positioned, from an exterior 1309 (FIG. 13A ) of thevending kiosk 1300. Thevending kiosk 1300, for example the hardware processor-based control system 1344 (e.g., circuitry, integrated circuit) of thevending kiosk 1300 can execute logic that checks a state (e.g., represented via a flag stored in a memory or register) of a latch orlock 1342 for the back orservice door 1308 of a given vending compartment 1304, and only unlatches, unlocks, or opens the latch or lock 1340 of the front or customer-facingdoor 1306 of the given vending compartment 1304 if the state of the back orservice door 1308 or associated latch orlock 1342 for the given vending compartment 1304 is latched, locked or closed. - Alternatively or additionally, the
vending kiosk 1300 can include one or more sensors that detect various conditions or states or positions of the front or customer-facingdoors 1306, back orservice doors 1308, and, or latches orlocks 1340 associated with the front or customer-facingdoors 1306 and, or latches orlocks 1342 associated with the back orservice doors 1308, or even with the interiors of the compartments. For example, one or more sensors can detect whether a door, latch or lock is locked, latched, closed, or alternatively unlatched, unlocked or open. For example, one or more sensors can detect whether a given compartment is empty or full, or unoccupied or occupied. Also for example, one or more sensors can detect whether a body part is in the compartment, touching a wall or door, or is proximate the door. Suitable sensors includecontact switches 1346 a (only two shown, only one called out), image sensors (e.g., digital cameras) 1346 b, 1346 c, passiveinfrared motion sensors 1346 d (only one called out), Reed switches, weight sensors orload cells 1346 e (only one called out),metal detectors 1346 g, and, or, temperature sensors orthermocouples 1346 f (only one called out). - The
vending kiosk 1300, for example a hardware processor (e.g., circuitry, integrated circuit) of thevending kiosk 1300, can execute logic that unlatches, unlocks, or opens the front or customer-facingdoor 1306 of a given vending compartment 1304 if all of a set of conditions are met. For example, a baseline condition may be that the back orservice door 1308 is latched, locked or closed. An additional condition may be that the vending compartment 1304 contains a food item. An additional condition, in addition to one or more of the above, may be that a customer or transaction has been recognized, for example via input of a code or personal identification number (PIN) which is verified, receipt or detection of biometric data (e.g., fingerprint, iris scan, facial scan) which is verified, a pairing with an electronic device or recognition thereof (e.g., exchange of a one-time use token). An additional condition, in addition to one or more of the above, may be that the food item in a given vending compartment 1304 is sufficiently cool for the customer to handle such without causing bodily harm. An additional condition, in addition to one or more of the above, may be that the front or customer-facingdoor 1306 and, or interior surfaces of the given vending compartment 1304 are sufficiently cool for the customer to come into contact with such without resulting in bodily harm. An additional condition, in addition to one or more of the above, may be that there is sufficient clearance for the front or customer-facingdoor 1306 to open. An additional condition, in addition to one or more of the above, may be that there is sufficient clearance for the back orservice door 1308 to open. -
FIG. 14 shows a set organg 1428 of cooking units (e.g., ovens) 1428 a-1428 f according to at least one illustrated embodiment. The cooking units (e.g., ovens) 1428 a-1428 f are suitable for use in thevending kiosk 1300 ofFIGS. 13A-13C . - Each
cooking unit 1428 a-1428 f may include a housing 1450 (one called out), and a heating element 1452 (one called out). Theheating element 1452 can take any of a large variety of forms, for instance resistance heating elements driven via electrical current, gas heating elements, inductive heating elements, etc. In the illustrated implementation, thecooking units 1428 a-1428 f are conveyor ovens with a conveyor 1454 (only one called out) that provides a transport path through a cooking chamber 1456 (only one called out). The conveyor oven is open at opposed ends of the transport path. While shown ganged together, the cooking units (only one called out) can in some implementations be separate from each other, and even spaced apart from each other. -
FIG. 15 shows a cooking unit (e.g., an oven) 1528 andtransmission 1560, where thecooking unit 1528 is translatable along twodifferent axes vending kiosk 1300 ofFIGS. 13A-13C . - The
transmission 1560 may include a first transmission operable to move the cooking unit along a first axis (e.g., horizontal axis). The first transmission may include one or more supports, drive belts, chains, pulleys, cables, rods, rails, wheels, gears (collectively 1560 a),actuators 1560 b (e.g., electric motor, electric stepper motor, solenoid). Thetransmission 1560 may include a second transmission operable to move thecooking unit 1528 along a second axis (e.g., vertical axis) 1562, different from thefirst axis 1562. The second transmission may include one or more supports, drive belts, chains, pulleys, cables, rods, rails, wheels, gears (collectively 1560 c),actuators 1560 d (e.g., electric motor, electric stepper motor, solenoid). The second transmission may be coupled to move the first transmission, and hence thecooking unit 1528 that is also moved by the first transmission. While illustrated as asingle cooling unit 1528, the transmission can move one, two or even more cooking units as a set, group, or gang of cooking units 1428 (FIG. 14 ). -
FIGS. 16A-16B show avending compartment 1600 at four successive periods of time or instances, according to at least one illustrated implementation. Thevending compartment 1600 is suitable for use in the vending kiosks of various implementations described herein. For example, thevending compartment 1600 can be used with any implementation ofFIGS. 1A-1C, 2, 3A, 4A, 4B . Also for example, thevending compartment 1600 can be used with any implementation ofFIGS. 13A-13C , and may allow the omission of one or more elevators (e.g., output transport elevators 1330) or other conveyors. Any vending kiosk can include one or more of thevending compartment 1600, for instance organized or structured in a two-dimensional array. - Each
vending compartment 1600 includes afirst receptacle 1602 and asecond receptacle 1604. - The
first receptacle 1602 comprises at least onewall 1606 that at least partially delimits an interior 1608 of thefirst receptacle 1602. Afront 1610 of thefirst receptacle 1602 has afront opening 1612 that provides access into theinterior 1608 of thefirst receptacle 1602 from thefront 1610 of thefirst receptacle 1602. Thefirst receptacle 1602 has a rear 1614 with at least a rear opening 1616 (FIG. 18 ) that provides access into theinterior 1608 of thefirst receptacle 1602 from the rear 1614 of thefirst receptacle 1602. - The
second receptacle 1604 comprises at least onewall 1622 that at least partially delimits an interior 1624 of thesecond receptacle 1604. Thesecond receptacle 1604 has a front 1626 with afront opening 1628 that provides access into theinterior 1624 of thesecond receptacle 1604 from thefront 1628 of thesecond receptacle 1604. Thesecond receptacle 1604 has a top 1630 with atop opening 1632 that provides access into theinterior 1624 of thesecond receptacle 1604 from the top 1630 of thesecond receptacle 1604. - The
second receptacle 1604 has amoveable tray 1634 that is moveable with respect to the at least onewall 1622 of thesecond receptacle 1604 between a raised position 1636 (FIG. 16A ) and a lowered position 1638 (FIGS. 16C and 16D ). In raised position 1636 (FIG. 16A ) thetray 1634 is at least proximate the top 1630 of thesecond receptacle 1604, allowing an item (e.g., food item, prepared food item) to be transferred to thetray 1634. In the lowered position 1638 (FIGS. 16C and 16D ) thetray 1634 is at least proximate a bottom 1640 (FIG. 16A ) of thesecond receptacle 1604, which vertically positions the item (e.g., food item, prepared food item) to be movable into theinterior 1608 of thefirst receptacle 1604. - As illustrated by the sequence, the
second receptacle 1604 is moveable with respect to thefirst receptacle 1602 between a withdrawn position 1642 (FIG. 16A-16C ) and an inserted position 1644 (FIG. 16D ). In the inserted position 1644 (FIG. 16D ), thesecond receptacle 1604 predominately extends into the interior 1698 of thefirst receptacle 1602 with thefront opening 1628 of thesecond receptacle 1604 at least proximate thefront opening 1612 of thefirst receptacle 1602, positioning the item (e.g., food item, prepared food item) on thetray 1634 to be retrievable from theinterior 1608 of thefirst receptacle 1602 by a customer or other user. In the withdrawn position 1642 (FIG. 16A ) thesecond receptacle 1604 is predominately withdrawn from theinterior 1608 of thefirst receptacle 1602 with thefront opening 1628 of thesecond receptacle 1604 spaced inwardly away from thefront opening 1612 of thefirst receptacle 1602 as compared to the insertedposition 1644. -
FIG. 17 illustrates that eachvending compartment 1600 any include, or may be coupled to, at least onehorizontal transmission 1702 operable to move the second receptacles 1604 (FIGS. 16A-16D ) between the inserted and the withdrawnpositions horizontal transmission 1702 may include arack 1702 a andpinion 1702 b, gears, rails, wheels, bearings, drive belt, toothed drive belt, cable, and an actuator (e.g., electric motor,stepper motor 1702 c, solenoid, pneumatic or hydraulic piston and cylinder along with reservoir of fluid and valves). -
FIG. 17 also illustrates that eachvending compartment 1600 may include, or may be coupled to, at least onevertical transmission 1704 operable to move the trays 1634 (FIGS. 16A-16D ) between the raised and the loweredpositions vertical transmission 1704 may include a rack and pinion, gears, rails, wheels, bearings,drive belt electric motor 1704 e, stepper motor, solenoid, pneumatic or hydraulic piston and cylinder along with reservoir of fluid and valves). -
FIG. 18 shows avending kiosk 1800 that includes a plurality ofvending compartments 1600 a-1600 d (only four shown, collectively 1600), according to at least one illustrated implementation. Many of the components are similar, or even identical, to components and structures discussed with reference toFIGS. 13A-13B . Similar or identical elements are identified inFIG. 18 with the same reference numbers as inFIG. 13A . Only some of the significant differences are given are discussed below and new reference numbers. - The
vending kiosk 1800 includes a plurality of customer-facingdoors 1306 a-1396 d (only four shown, collectively 1306), each of the customer-facingdoors 1306 movable between a first position (see customer-facingdoors 1306 b-1306 d) which prevents access to the interior of the first and thesecond receptacles vending compartments 1600 from an exterior of thevending kiosk 1800 and a second position (see customer-facing door 1306 a) which allows access to the interior 1608, 1624 of the first and thesecond receptacles vending compartments 1600 from the exterior of the vending kiosk 1800 (FIG. 18 ). - In some implementations, a first plurality of
latches 428, 432 (FIGS. 4A, 4B ), 1340 (FIG. 13C ) are operable to alternatively latch and unlatch respective ones of the customer-facingdoors 1306. Once unlatched, the customer-facingdoors 1306 may be manually opened by a customer. Alternatively, the customer-facingdoors 1306 may be spring-loaded and open automatically in response to unlatching. In some implementations, a first plurality of motors or solenoids 1850 (one called out inFIG. 18 ) operable to open, close, or alternatively open and close respective ones of the customer-facingdoors 1306. For example, an actuator (e.g., stepper motor or solenoid) 1850 may be coupled directly, or indirectly (e.g., gears, cables, belts), to open and close the customer-facingdoors 1306. The stepper motor orsolenoid 1850 may resist manual opening (e.g., via inertia, one-way clutch, relay), essentially locking the customer-facingdoors 1306 when closed. - The at least one processor-based
control system 1344 is communicatively coupled to control the customer-facingdoors 1306 and/or control the horizontal and vertical 1702, 1704, for example by controlling thelatches 428, 432 (FIGS. 4A, 4B ), 1340 (FIG. 13C ), the motors orsolenoids 1850 in response to any one, more or a combination of conditions or states as set out below. - For example, the at least one processor-based
control system 1344 unlatches or opens the customer-facingdoor 1306 of the respective vending compartment only if the respectivesecond receptacle 1604 is in the inserted position. - Additionally or alternatively, the at least one processor-based
control system 1344 controls the horizontal transmission 1702 (FIG. 17 ) to move thesecond receptacle 1604 from the withdrawn 1642 to the insertedposition 1644 only if thetray 1634 is in the loweredposition 1638. Additionally or alternatively, the at least one processor-basedcontrol system 1344 controls the vertical transmission 1704 (FIG. 17 ) to move thetray 1634 from the raisedposition 1636 to the loweredposition 1642 if the tray holds an item. For instance, the at least one processor-basedcontrol system 1344 may use information or data from one or more sensors to determine whether there is an item present on thetray 1634, and, or whether the item, if present, has one or more characteristics consistent with, and not inconsistent with, a type of item that is expected to be in thetray 1634. For instance, a weight sensor or load cell can provide information that represents a weight of thetray 1634, and a tare weight can be used to determine i) whether an item is carried by thetray 1634 and, or ii) a weight of that item. The at least one processor-basedcontrol system 1344 can compare the weight of thetray 1634 or a difference between total weight and a tare weight with an expected weight, determining whether the item is present and is within a range of an expected weight (e.g., weight of a fully loaded pizza). For instance, an image sensor (e.g., digital camera) can provide information that represents surface of thetray 1634 and any objects carried thereby, and can be used by the at least one processor-basedcontrol system 1344 to determine i) whether an item is carried by thetray 1634 and, or whether an item carried by thetray 1634 resembles a physical appearance of an expected item. Such can even be used to maintain quality control, for example assessing a distribution of toppings on a pizza, or a level of cooking. Alternatively, a PIR motion detector or a height detector can be used to assess the contents of an interior of the vending compartment. Even a simple electronic eye (e.g., LED and photo-diode pair) can be employed to determine whether the vending compartment is full or empty. - Additionally or alternatively, the at least one processor-based
control system 1344 controls the vertical transmission 1704 (FIG. 17 ) to move the tray 1634 (FIGS. 16A-16D ) from the loweredposition 1638 to raisedposition 1636 after an item has been removed from therespective vending compartment 1600. For instance, the at least one processor-basedcontrol system 1344 controls the vertical transmission to move thetray 1634 from the loweredposition 1638 to raisedposition 1636 in response to a respective customer-facingdoor 1306 closing after an item has been removed from therespective vending compartment 1600. - Additionally or alternatively, the at least one processor-based
control system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if a customer or a transaction has been recognized. For instance, the at least one processor-basedcontrol system 1344 sends signals that unlatches or opens the customer-facingdoor 1306 of the respective vending compartment only if an input code is verified. Also for instance, the at least one processor-basedcontrol system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if detected biometric data has been verified. Also for instance, the at least one processor-basedcontrol system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if a pairing with an electronic device or recognition thereof occurs. - Additionally or alternatively, the at least one processor-based
control system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if therespective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm. Additionally or alternatively, the at least one processor-basedcontrol system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if a food item in therespective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm. Additionally or alternatively, the at least one processor-basedcontrol system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if all of the interior surfaces of therespective vending compartment 1600 is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm. - Additionally or alternatively, the at least one processor-based
control system 1344 unlatches or opens the customer-facingdoor 1306 of therespective vending compartment 1600 only if there is a sufficient clearance for the customer-facing door to open. - The
vending kiosk 1800 may include any one, two, more, or all of the sensors illustrated inFIGS. 13A-13C and described with respect thereto. - Various embodiments of the devices and/or processes via the use of block diagrams, schematics, and examples have been set forth herein. Insofar as such block diagrams, schematics, and examples contain one or more functions and/or operations, it will be understood by those skilled in the art that each function and/or operation within such block diagrams, flowcharts, or examples can be implemented, individually and/or collectively, by a wide range of hardware, software, firmware, or virtually any combination thereof. In one embodiment, the present subject matter may be implemented via Application Specific Integrated Circuits (ASICs). However, those skilled in the art will recognize that the embodiments disclosed herein, in whole or in part, can be equivalently implemented in standard integrated circuits, as one or more computer programs running on one or more computers (e.g., as one or more programs running on one or more computer systems), as one or more programs running on one or more controllers (e.g., microcontrollers) as one or more programs running on one or more processors (e.g., microprocessors), as firmware, or as virtually any combination thereof, and that designing the circuitry and/or writing the code for the software and or firmware would be well within the skill of one of ordinary skill in the art in light of this disclosure.
- When logic is implemented as software and stored in memory, one skilled in the art will appreciate that logic or information, can be stored on any computer readable medium for use by or in connection with any computer and/or processor related system or method. In the context of this document, a memory is a computer readable medium that is an electronic, magnetic, optical, or other another physical device or means that contains or stores a computer and/or processor program. Logic and/or the information can be embodied in any computer readable medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions associated with logic and/or information. In the context of this specification, a “computer readable medium” can be any means that can store, communicate, propagate, or transport the program associated with logic and/or information for use by or in connection with the instruction execution system, apparatus, and/or device. The computer readable medium can be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, device, or propagation medium. More specific examples (a non-exhaustive list) of the computer readable medium would include the following: an electrical connection having one or more wires, a portable computer diskette (magnetic, compact flash card, secure digital, or the like), a random access memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM, EEPROM, or Flash memory), an optical fiber, and a portable compact disc read-only memory (CDROM). Note that the computer-readable medium could even be paper or another suitable medium upon which the program associated with logic and/or information is printed, as the program can be electronically captured, via for instance optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner if necessary, and then stored in memory.
- In addition, those skilled in the art will appreciate that certain mechanisms of taught herein are capable of being distributed as a program product in a variety of forms, and that an illustrative embodiment applies equally regardless of the particular type of signal bearing media used to actually carry out the distribution. Examples of signal bearing media include, but are not limited to, the following: recordable type media such as floppy disks, hard disk drives, CD ROMs, digital tape, and computer memory; and transmission type media such as digital and analog communication links using TDM or IP based communication links (e.g., packet links).
- The various embodiments described above can be combined to provide further embodiments. U.S. Provisional Patent Application No. 62/620,931, filed Jan. 23, 2018, titled, “Vending-Kiosk Based Systems and Methods to Vend and/or Prepare Items, For Instance Prepared Foods”; U.S. Provisional Patent Application No. 62/682,038, filed Jun. 7, 2018, titled, “Vending-Kiosk Based Systems and Methods to Vend and/or Prepare Items, For Instance Prepared Foods”; U.S. Provisional Patent Application No. 62/685,067, filed Jun. 14, 2018, titled “VENDING-KIOSK BASED SYSTEMS AND METHODS TO VEND AND/OR PREPARE ITEMS, FOR INSTANCE PREPARED FOODS”; U.S. Pat. No. 9,292,889, issued Mar. 22, 2016, titled “Systems and Methods of Preparing Food Products”; U.S. patent application Ser. No. 62/311,787; U.S. patent application Ser. No. 15/040,866, filed Feb. 10, 2016, titled, “Systems and Methods of Preparing Food Products”; PCT Application No. PCT/US2014/042879, filed Jun. 18, 2014, titled, “Systems and Methods of Preparing Food Products”; U.S. patent application Ser. No. 15/465,228, filed Mar. 21, 2017, titled, “Container for Transport and Storage of Food Products”; U.S. Provisional Patent Application No. 62/311,787, filed Mar. 22, 2016, titled, “Container for Transport and Storage of Food Products”; PCT Application No. PCT/US2017/023408, filed Mar. 21, 2017, titled, “Container for Transport and Storage of Food Products”; U.S. patent application Ser. No. 15/481,240, filed Apr. 6, 2017, titled, “On-Demand Robotic Food Assembly and Related Systems, Devices, and Methods”; U.S. Provisional Patent Application No. 62/320,282, filed Apr. 8, 2016, titled, “On-Demand Robotic Food Assembly and Related Systems, Devices, and Methods”; PCT Application No. PCT/US17/26408, filed Apr. 6, 2017, titled, “On-Demand Robotic Food Assembly and Related Systems, Devices, and Methods”; U.S. Provisional Patent Application No. 62/394,063, filed Sep. 13, 2016, titled, “Cutter with Radially Disposed Blades”; U.S. patent application Ser. No. 15/845,916, filed Dec. 18, 2017, titled, “Container for Transport and Storage of Food Products; U.S. patent application Ser. No. 15/701,099, filed Sep. 11, 2017, titled, “Systems and Method Related to a Food-Item Cutter and Associated Cover”; U.S. Patent Application Ser. No. 62/532,914, filed Jul. 14, 2017, titled, “Systems and Method Related to a Food-Item Cutter and Associated Cover”; U.S. patent application Ser. No. 15/341,977, filed Nov. 2, 2016, titled, “Lazy Susan Menu Graphical User Interface”; U.S. Patent Application Ser. No. 62/532,885, filed Jul. 14, 2017, titled, “Multi-Modal Vehicle Implemented Food Preparation, Cooking, and Distribution Systems and Methods”; U.S. Patent Application Ser. No. 62/531,131, filed Jul. 11, 2017, titled, “Configurable Food Delivery Vehicle and Related Methods and Articles”; U.S. Patent Application Ser. No. 62/531,136, filed Jul. 11, 2017, titled “Configurable Food Delivery Vehicle and Related Methods and Articles; U.S. Patent Application Ser. No. 62/556,901, filed Sep. 11, 2017, titled, “Configurable Oven Rack System”; U.S. Patent Application Ser. No. 62/595,229, filed Dec. 6, 2017, titled, “Configurable Oven Rack System”; U.S. Patent Application Ser. No. 62/529,933, filed Jul. 7, 2017, titled, “Container For Transport and Storage of Food Products”; U.S. Patent Application Ser. No. 62/522,583, filed Jun. 20, 2017, titled, “Vehicle with Context Sensitive Information Presentation”; U.S. Patent Application Ser. No. 62/550,438, filed Aug. 25, 2017, titled, “Systems and Methods for Identifying Components on a Communications Bus”; U.S. Patent Application Ser. No. 62/569,404, filed Oct. 6, 2017, titled, “Self-Propelled Food Preparation Appliances and On-Demand Robotic Food Assembly with Self-Propelled Food Preparation Appliances”; U.S. Patent Application Ser. No. 62/615,087, filed Jan. 9, 2018, titled, “Systems and Method Related to a Food-Item Cutter with Metal Wipers and an Associated Cover”; U.S. Patent Application Ser. No. 62/574,088, filed Oct. 18, 2017, titled, “On-Demand Robotic Food Assembly Equipment, and Related Systems and Methods”; U.S. Patent Application Ser. No. 62/613,272, filed Jan. 3, 2018, titled, “Multi-Modal Distribution Systems and Methods Using Vending Kiosks and Autonomous Delivery Vehicles”; U.S. patent application Ser. No. 15/568,120, filed Oct. 20, 2017, titled, “Vehicle Having a Device for Processing Food”; U.S. patent application Ser. No. 29/574,802, filed Aug. 18, 2016, titled, “Food Container”, U.S. patent application Ser. No. 29/618,670, filed Sep. 22, 2017, titled “Food Container”; U.S. patent application Ser. No. 29/574,805, filed Aug. 18, 2016, titled, “Food Container Cover”; U.S. patent application Ser. No. 29/574,808, filed Aug. 18, 2016, titled, “Food Container Base”; U.S. patent application Ser. No. 29/558,872, filed Mar. 22, 2016, titled, “Food Container Base”; U.S. patent application Ser. No. 29/558,873, filed Mar. 22, 2016, titled, “Food Container Cover”; and U.S. patent application Ser. No. 29/558,874, filed Mar. 22, 2016, titled, “Food Container” are each incorporated herein by reference, in their entirety.
- From the foregoing it will be appreciated that, although specific embodiments have been described herein for purposes of illustration, various modifications may be made without deviating from the spirit and scope of the teachings. Accordingly, the claims are not limited by the disclosed embodiments.
Claims (26)
1. A vending kiosk, comprising:
at least one interior compartment;
a plurality of vending compartments, each of the vending compartments having a respective interior;
a plurality of customer-facing doors, each of the customer-facing doors movable between a first position which prevents access to the interior of a respective one of the vending compartments from an exterior of the vending kiosk and a second position which allows access to the interior of the respective one of the vending compartments from the exterior of the vending kiosk;
a plurality of service doors, each of the service doors movable between a first position which prevents access to the interior compartment from the interior of a respective one of the vending compartments and a second position which allows access to the interior compartment from the interior of the respective one of the vending compartments;
a first plurality of actuators operable to alternatively latch and unlatch or alternatively open and close respective ones of the customer-facing door;
a second plurality of actuators operable to alternatively latch and unlatch or alternatively open and close respective ones of the service doors; and
at least one processor-based control system, communicatively coupled to control the actuators of the first plurality of actuators and the second plurality of actuators, and which, for each of the vending compartments unlatches the customer-facing door of the respective vending compartment only if the service door of the respective vending compartment is latched or closed.
2-3. (canceled)
4. The vending kiosk of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if an input code is verified.
5. The vending kiosk of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if detected biometric data has been verified.
6. (canceled)
7. The vending kiosk of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if the respective compartment is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm.
8. The vending kiosk of any of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if a food item in the respective compartment is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm.
9. The vending kiosk of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if all of the interior surfaces of the respective compartment is at or below a defined temperature that is sufficiently cool for the customer to handle such without causing bodily harm.
10. The vending kiosk of claim 1 wherein, for each of the vending compartments, the at least one processor-based control system unlatches or opens the customer-facing door of the respective vending compartment only if there is a sufficient clearance for the customer-facing door to open.
11. The vending kiosk of claim 1 , further comprising: a housing; and a number of interior compartments housed in the housing; and an output transport mechanism operable to transfer food items from the interior compartments to the vending compartments via the respective service doors.
12. The vending kiosk of claim 11 wherein output transport mechanism comprises at least one input transport elevator.
13. The vending kiosk of claim 1 , and further comprising: a supply door sized and dimensioned to removably receive a supply rack in the housing.
14. The vending kiosk of claim 13 wherein the housing has at least one refrigerated portion and at least one compressor, and the supply door provides access to the refrigerated portion for the supply rack.
15. The vending kiosk of claim 14 , further comprising: an input transport mechanism operable to transfer food items from the supply rack to the interior compartments.
16. The vending kiosk of claim 15 wherein input transport mechanism comprises at least one input transport elevator.
17. The vending kiosk of claim 14 , further comprising: a set of thermal insulation that thermally insulates the refrigerated portion from the at least one interior compartment.
18. The vending kiosk of claim 1 , further comprising: a housing, wherein in the at least one interior compartment includes a plurality of interior compartments housed in the housing; and an interior compartment transport mechanism operable to move the interior compartments relative to the vending compartments.
19. The vending kiosk of claim 18 wherein the interior compartment transport mechanism is operable to move the interior compartments along a first axis and a second axis, the second axis perpendicular to the first axis.
20. The vending kiosk of claim 1 , further comprising: a number of image sensors positioned to capture images of each food item in at least one position along a path between the at least one interior compartment and a respective one of the vending compartments, inclusive of the interior of the vending compartments, and wherein the at least one processor-based control system receives image data that represents images of the food items.
21. The vending kiosk of claim 20 wherein the at least one processor-based control system determines whether there are any foreign objects on or in the food items based on the received image data.
22. The vending kiosk of claim 20 wherein the at least one processor-based control system determines whether the food items are finished cooking based on the received image data.
23. The vending kiosk of claim 20 wherein the at least one processor-based control system determines whether the food items satisfy at least one quality control condition based on the received image data.
24. The vending kiosk of claim 1 , further comprising: a number of metal sensors positioned to sense each food item in at least one position along a path between the at least one interior compartment and a respective one of the vending compartments, inclusive of the interior of the vending compartments, and wherein the at least one processor-based control system receives data from the metal sensors and determines whether any of the food items contains metal.
25. The vending kiosk of claim 1 , further comprising: a number of temperature sensors positioned to sense a temperature of each food item in at least one position along a path between the at least one interior compartment and a respective one of the vending compartments, inclusive of the interior of the vending compartments, and wherein the at least one processor-based control system receives data from the temperature sensors and determines whether each of the food items is within a specified range of temperatures.
26-27. (canceled)
28. The vending kiosk of claim 1 , further comprising: a first plurality of motors or solenoids operable to alternatively open and close respective ones of the customer-facing door; and the at least one processor-based control system is communicatively coupled to control the customer-facing doors by control of the motors or solenoids of the first plurality of motors or solenoids.
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