EP3024652A2 - Procédé et appareil modulaire d'impression à transfert par sublimation et appareil de distribution - Google Patents

Procédé et appareil modulaire d'impression à transfert par sublimation et appareil de distribution

Info

Publication number
EP3024652A2
EP3024652A2 EP14744246.1A EP14744246A EP3024652A2 EP 3024652 A2 EP3024652 A2 EP 3024652A2 EP 14744246 A EP14744246 A EP 14744246A EP 3024652 A2 EP3024652 A2 EP 3024652A2
Authority
EP
European Patent Office
Prior art keywords
product
transfer media
substrate
vending apparatus
sublimation
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP14744246.1A
Other languages
German (de)
English (en)
Other versions
EP3024652B1 (fr
Inventor
Brian Rosner
Gary Edward WILL
Bryan Keith Solace
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hillman Group Inc
Original Assignee
Hillman Group Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US13/951,196 external-priority patent/US9731534B2/en
Priority claimed from US13/951,175 external-priority patent/US9120326B2/en
Priority claimed from US13/951,127 external-priority patent/US9333788B2/en
Priority claimed from US13/951,150 external-priority patent/US10011120B2/en
Priority claimed from US14/261,202 external-priority patent/US9403394B2/en
Application filed by Hillman Group Inc filed Critical Hillman Group Inc
Publication of EP3024652A2 publication Critical patent/EP3024652A2/fr
Application granted granted Critical
Publication of EP3024652B1 publication Critical patent/EP3024652B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F16/00Transfer printing apparatus
    • B41F16/0006Transfer printing apparatus for printing from an inked or preprinted foil or band
    • B41F16/004Presses of the reciprocating type
    • B41F16/0046Presses of the reciprocating type with means for applying print under heat and pressure, e.g. using heat activable adhesive
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F16/00Transfer printing apparatus
    • B41F16/0006Transfer printing apparatus for printing from an inked or preprinted foil or band
    • B41F16/006Arrangements for moving, supporting or positioning the printing foil or band
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F16/00Transfer printing apparatus
    • B41F16/0006Transfer printing apparatus for printing from an inked or preprinted foil or band
    • B41F16/0073Transfer printing apparatus for printing from an inked or preprinted foil or band with means for printing on specific materials or products
    • B41F16/008Transfer printing apparatus for printing from an inked or preprinted foil or band with means for printing on specific materials or products for printing on three-dimensional articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41MPRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
    • B41M5/00Duplicating or marking methods; Sheet materials for use therein
    • B41M5/025Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet
    • B41M5/0256Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet the transferable ink pattern being obtained by means of a computer driven printer, e.g. an ink jet or laser printer, or by electrographic means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B44DECORATIVE ARTS
    • B44CPRODUCING DECORATIVE EFFECTS; MOSAICS; TARSIA WORK; PAPERHANGING
    • B44C1/00Processes, not specifically provided for elsewhere, for producing decorative surface effects
    • B44C1/16Processes, not specifically provided for elsewhere, for producing decorative surface effects for applying transfer pictures or the like
    • B44C1/165Processes, not specifically provided for elsewhere, for producing decorative surface effects for applying transfer pictures or the like for decalcomanias; sheet material therefor
    • B44C1/17Dry transfer
    • B44C1/1712Decalcomanias applied under heat and pressure, e.g. provided with a heat activable adhesive
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41MPRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
    • B41M5/00Duplicating or marking methods; Sheet materials for use therein
    • B41M5/025Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet
    • B41M5/035Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet by sublimation or volatilisation of pre-printed design, e.g. sublistatic
    • B41M5/0358Duplicating or marking methods; Sheet materials for use therein by transferring ink from the master sheet by sublimation or volatilisation of pre-printed design, e.g. sublistatic characterised by the mechanisms or artifacts to obtain the transfer, e.g. the heating means, the pressure means or the transport means

Definitions

  • the present disclosure generally relates to dye sublimation transfer printing, and more particularly, to an apparatus for sublimating an image on a product capable of incorporating sublimation dye.
  • Dye sublimation is a process employing heat and pressure to convert solid dyes into gaseous form without entering an intermediate liquid phase. Such a process can infuse colored dye into certain compatible materials, such as polyester or ceramics, to create a permanent printed image on the material.
  • Expediting and streamlining the printing and sublimation process would increase efficiency, quality, repeatability, and profitability.
  • One means of speeding up sublimation printing is by configuring the system to simultaneously print on multiple surfaces of a three-dimensional product. Optimization in this manner not only reduces the time of the process but is safer (since flipping the product for printing on the other side is not required) and reduces material waste.
  • a modular apparatus comprising various subsystems would be desirable, because it could be configured to meet particular needs or applications of a user in a cost-effective manner.
  • such an apparatus could be designed to fit a variety of physical footprints, widening potential marketing possibilities.
  • the systems and methods disclosed in the "341 patent may assist an operator in sublimating onto multiple surfaces of a product, the disclosed system is limited.
  • the "341 system does not easily lend itself to streamlined automation, as no integrated system is disclosed, and the components must be manually placed and aligned. The system components are open to the air, and thus could present a safety hazard, particularly to an untrained operator.
  • the top and smaller sides of a three-dimensional object can be printed using this system, there is no capability for printing onto the top side of an object and the bottom side simultaneously.
  • the system would not be readily adaptable to multiple types of products, as a membrane that fits one object well may not conform satisfactorily to fit the shape of another oddly-sized or shaped object, leading to lower transfer quality.
  • the '341 system contains significant safety and efficiency limitations that would not make it ideal for a merchant, such as a retail outlet, seeking to add a dye sublimation system to provide and market personalized products to consumers.
  • the disclosed system is directed to overcoming one or more of the problems set forth above and/or elsewhere in the prior art.
  • a method for sublimating images on a product comprises printing one or more images identified by a customer for the product on a transfer media.
  • the method further comprises positioning the transfer media on a substrate, and positioning at least one product onto the transfer media.
  • the method includes folding the transfer media to substantially surround the product, wherein at least one printed image is positioned onto one or more opposing sides of the product to be sublimated.
  • the method also includes configuring a single thermal cycle for a single heating platen such that the images will be sublimated substantially
  • the method comprises sublimating at least one image from the transfer media to each side of the product using the configured single thermal cycle of the single heating platen.
  • the invention is directed to an automated sublimation apparatus for sublimating an image on a product.
  • the apparatus comprises a dye sublimation transfer printer configured to receive a digital image file representing an image, and further configured to print the received image on a transfer media.
  • the apparatus further comprises a substrate configured to receive the transfer media.
  • the apparatus includes one or more heating platens configured to sublimate the printed image onto one or more opposing sides of the selected product.
  • the apparatus also includes a housing substantially enclosing the dye sublimation transfer printer, substrate, and one or more heating platens in a manner that prevents a user from contacting the enclosed components.
  • the apparatus comprises a user interface device configured to permit the user to determine an image for printing.
  • the invention is directed to a vending apparatus for providing a user with a customized sublimated product.
  • the vending apparatus comprises a dye sublimation transfer printer which is configured to receive a digital image file representing an image from the user, and further configured to print the received image on a transfer media.
  • the vending apparatus further comprises a substrate configured to receive the transfer media.
  • the vending apparatus includes one or more product storage containers configured to store a plurality of products. Additionally, the vending apparatus comprises a robotic transport mechanism configured to place the transfer media on the substrate, retrieve a selected product from a storage container, and position the product on the transfer media.
  • the vending apparatus includes one or more heating platens configured to engage the transfer media and sublimate the printed image onto one or more opposing sides of the selected product in a single thermal cycle. Also, the vending apparatus includes a cooling system configured to cool the sublimated product to at least about an ambient temperature. The vending apparatus further comprises a delivery opening configured to provide the cooled article to the user. The vending apparatus also includes a housing substantially enclosing the dye sublimation transfer printer, substrate, one or more product storage containers, robotic transport mechanism, one or more heating platens, and cooling system in a manner that prevents a user from contacting the enclosed components. Finally, the vending apparatus comprises a user interface device configured to permit the user to determine one or more images for printing, select one of the plurality of products on which to sublimate the one or more images, and facilitate payment by the user for the sublimated product.
  • Fig. 1A is a pictorial front view of an exemplary dye sublimation transfer printing apparatus consistent with disclosed embodiments.
  • Fig. IB is a side view of the dye sublimation transfer printing apparatus of Fig. 1A.
  • Fig. 1C is a top view of the dye sublimation transfer printing apparatus of Fig. 1A.
  • Fig. 2 is the dye sublimation transfer printing apparatus of Fig. 1A with part of the exterior housing removed to show detail;
  • Figs. 3A-3D show various steps of the operation of a folding bar assembly associated with an exemplary integrated dye sublimation printing apparatus, consistent with disclosed embodiments;
  • Fig. 4 is a detailed view of the dye sublimation transfer printing apparatus of
  • FIG. 5A is an exterior profile view of an exemplary integrated dye sublimation transfer printing vending machine, consistent with disclosed embodiments.
  • Fig. 5B is a front view of the vending machine of Fig. 5A;
  • FIG. 6A is a front cutaway view of the vending machine of Figs. 5A-5B, consistent with disclosed embodiments.
  • Fig. 6B is a side cutaway view of the vending machine of Figs. 5A-5B, consistent with disclosed embodiments;
  • Fig. 7 is a profile cutaway view of the vending machine of Figs. 5A-5B, consistent with disclosed embodiments;
  • FIGs. 8A-8C are diagrammatic illustrations of an end effector interacting with a storage container incorporated within an integrated dye sublimation transfer printing vending machine, consistent with disclosed embodiments;
  • Figs. 9A-9F are diagrammatic illustrations of customized images produced by an integrated dye sublimation transfer printing vending machine consistent with disclosed embodiments
  • Fig. 10 is a diagrammatic illustration of optional registration and alignment features consistent with disclosed embodiments.
  • Fig. 11 is a diagrammatic illustration of optional registration and alignment features consistent with disclosed embodiments.
  • FIGs. 12A-12B are diagrammatic illustrations of a cooling plate associated with an exemplary integrated dye sublimation printing apparatus consistent with disclosed embodiments
  • Fig. 13 is a flowchart of an exemplary transport mechanism operation process, consistent with disclosed embodiments;
  • Fig. 14 is a flowchart of an exemplary dye sublimation transfer printing process, consistent with disclosed embodiments;
  • FIG. 15 is a block diagram of an exemplary clerk-operated dye sublimation transfer printing system, consistent with disclosed embodiments
  • Figs. 16A-16B are diagrammatic illustrations of a dye sublimation transfer printer assembly associated with an exemplary integrated dye sublimation printing apparatus consistent with disclosed embodiments;
  • FIGs. 17A-17B are diagrammatic illustrations of interchangeable modular product and accessory storage containers incorporated within an integrated dye sublimation transfer printing vending machine, consistent with disclosed embodiments;
  • FIGs. 18A-18C are perspective, front, and top views respectively of a product storage container incorporated within an integrated dye sublimation transfer printing vending machine, consistent with disclosed embodiments;
  • FIGs. 19A-19C are perspective, front, and top views respectively of an accessory storage container incorporated within an integrated dye sublimation transfer printing vending machine, consistent with disclosed embodiments;
  • Figs. 20A-20D are diagrammatic illustrations of common matrix products, consistent with disclosed embodiments.
  • Figs. 21A-21D are diagrammatic illustrations of fiducial markers usable with a vision system, consistent with disclosed embodiments;
  • Fig. 22 is a diagrammatic illustration of a clamping system for transfer media within an integrated dye sublimation transfer printing apparatus, consistent with disclosed embodiments;
  • Fig. 23 is a diagrammatic illustration of a hydraulic system and spring-loaded press ram, consistent with disclosed embodiments
  • FIGs. 24A-24C are diagrammatic illustrations of an example end effector associated with a robotic transport mechanism, consistent with disclosed embodiments;
  • Fig. 25 is an example user interface associated with a vending apparatus for initiating contact with a user and allowing language selection, consistent with disclosed embodiments;
  • Fig. 26 is an example user interface associated with a vending apparatus for selecting one of a plurality of different types of products to be sublimated, consistent with disclosed embodiments;
  • Fig. 27 is an example user interface associated with a vending apparatus for selecting one subtype of a plurality of different types of products to be sublimated, consistent with disclosed embodiments;
  • Fig. 28 is an example user interface associated with a vending apparatus for customizing a product, consistent with disclosed embodiments
  • Fig. 29 is an example user interface associated with a vending apparatus for customizing a product, consistent with disclosed embodiments
  • Fig. 30 is an example user interface associated with a vending apparatus for customizing a product, consistent with disclosed embodiments
  • Fig. 31 is an example user interface associated with a vending apparatus for customizing a product, consistent with disclosed embodiments
  • Fig. 32 is an example user interface associated with a vending apparatus for customizing a product, consistent with disclosed embodiments
  • Fig. 33 is an example user interface associated with a vending apparatus for confirming customizable features to be sublimated onto a product, consistent with disclosed embodiments;
  • Fig. 34 is an example user interface associated with a vending apparatus for confirming quantities of customized products, consistent with disclosed embodiments
  • Fig. 35 is an example user interface associated with a vending apparatus for selecting optional accessories, consistent with disclosed embodiments;
  • Fig. 36 is an example user interface associated with a vending apparatus for facilitating payment for one or more customized products, consistent with disclosed embodiments;
  • Fig. 37 is an example user interface associated with a vending apparatus for providing confirmation that customization of a product is in progress, consistent with disclosed embodiments.
  • Figs. 1A-1 C and 2 illustrate an exemplary dye sublimation transfer printing apparatus 100.
  • Apparatus 100 may contain various interchangeable modular fixtures configured to complete printing and sublimation tasks.
  • module is not used in a manner requiring a completely separate modular arrangement. Rather, “module” is used more generally to refer to the components necessary to provide the required functionality. In effect, the noted modules are subsystems within the integrated apparatus. Depending upon the applications and requirements of a given customer, the integrated apparatus can be customized to include only the desired subsystems. As such, Figs. 1A-1C and 2 illustrate but one example of an apparatus within the scope of the invention.
  • Apparatus 100 may be configured in a variety of ways depending on the needs and applications of the user.
  • apparatus 100 may be configured as a full kiosk, in which most if not all components of the apparatus are fully enclosed.
  • all components may be fully automated and an untrained user may be capable of operating the entire apparatus.
  • An added advantage is that the untrained user faces no risk of injury from heat, clamping, pinching, or moving parts since the kiosk is fully enclosed.
  • apparatus 100 may be configured as a clerk-operated kiosk with an offboard inventory of products to be sublimated.
  • a subset of the automated modules discussed above may be substituted with manual variations operable by an operator such as a clerk or employee of a retail establishment.
  • a clerk- operated kiosk may be situated in a retail establishment in a location accessible to employees of the establishment, such as behind a counter or in a restricted area.
  • apparatus 100 may or may not have all components enclosed.
  • apparatus 100 may be configured as a customer- operated kiosk with an offboard inventory of products to be sublimated. In this
  • apparatus 100 may or may not have all components enclosed. The non-enclosed components may not be fully accessible to the customer.
  • apparatus 100 may be configured as a hybrid kiosk with offboard inventory, with some modules configured to be operable by a clerk, and some configured to be operable by a customer.
  • Apparatus 100 may interface with a printer (not shown for simplicity in Figs.
  • the associated printer may be electronically configured to receive a digital image file from an operator or a customer.
  • the digital image file may represent images such as pictures, text, stylized text, or a combination of these elements.
  • the printer may receive the digital image file directly, and may include digital media input interface components.
  • the printer may be linked via a physical or a network connection to a distinct interface device or module (not shown) which is configured to receive the digital image file and/or permit a user to determine a digital image file for printing.
  • a distinct interface device or module not shown
  • determining an image file for printing may comprise simply confirming or verifying a submitted image, if the user wishes to print the exact image that was submitted, or may further comprise modifying the submitted image or adding features to the image as described herein.
  • Apparatus 100 and an associated printer may be configured to receive a digital image file from a user in various ways, including but not limited to receiving insertion of flash memory or a USB drive, connecting via a USB or Firewire ® cable, receiving image files by email, receiving image files uploaded via a mobile application, retrieving user-submitted image files from an online library or website, etc.
  • apparatus 100 may include a scanner, which can receive a physical image from a user, convert it into a digital image file, and provide it to the printer . The scanner may be further configured to enhance or alter the acquired digital image file before providing it to the printer.
  • image file enhancements may include, but are not limited to, changing the size of the image, rotating, reversing, or translating the image, altering color brightness, reducing blur, deskewing, cropping, etc. Therefore, printing the received image may comprise printing the exact image submitted by the user, or may comprise printing a modified version of the received image.
  • the modifications may include the image file enhancements discussed above, or may further comprise additions to the received image such as pictures, text, or stylized text as described above.
  • apparatus 100 may be configured to detect that a submitted image file is of low resolution, and may sublimate at low quality at a particular size or on a particular object desired by the user.
  • apparatus 100 may provide a textual or audible warning to the user (either a clerk operator or a customer) via an associated user interface device (such as that described below in association with Fig. 5). The user may be prompted to submit a new image, or to choose a different image size or product.
  • apparatus 100 may be configured to not proceed with the sublimation task if the image is of low resolution. In other embodiments, apparatus 100 may present the warning to the user, but may proceed with the sublimation task anyway.
  • apparatus 100 may prohibit further modification of the image, such as enlargement, if the image is of low resolution.
  • Apparatus 100 may additionally provide a printed receipt or other memorialization that the digital image file submitted was of insufficient resolution to produce a quality sublimated image.
  • the associated printer may be configured to receive a digital image file selected at the point of sale by a user from a library or database containing a plurality of preloaded stock image files.
  • the printer may be configured to receive digital image file taken by a camera, which may be (but need not necessarily be) associated with apparatus 100.
  • apparatus 100 may be capable of receiving input in the form of text from a user, and may convert or incorporate the text into a printable digital image file for sublimation.
  • the associated printer may be configured to utilize standard sublimation dyes known in the art to print the received digital image file onto suitable transfer media.
  • the transfer media may comprise any material capable of receiving a printed dye image, including but not limited to coated or uncoated paper, card stock, film, resin, wax, ribbon, tape, etc.
  • an associated printer is configured to print images onto individual sheets of transfer media.
  • the printer may include or be connected to a bulk storage unit containing a plurality of sheets of transfer media.
  • individual sheets of the transfer media may be fed into the printer one sheet at a time.
  • the printer may be configured to automatically feed the sheets of transfer media into proximity with the print head and sublimation dyes for printing.
  • the printer may be configured as a manual, hand-fed printer in which an operator may introduce each sheet of transfer media into the printer.
  • Some embodiments of apparatus 100 may be configured for both manual and automatic sheet feeding.
  • the associated printer may be configured to print a dye image on one side of each sheet of the transfer media, or alternatively may be capable of printing dye images on both sides of each sheet.
  • the printer may be configured to print the images in a single pass, or may require two passes, such as for complex images, multiple colors, or multiple layers of images.
  • a printed dye image may include multiple distinct images
  • the printer may print the superimposed image in a single pass, or may print each constituent image in its own pass through the machine.
  • the sheets of transfer media supplied to the printer associated with apparatus 100 may be configured to facilitate transfer of a printed image onto multiple surfaces of a product.
  • the sheets of transfer media may contain pre-treatments or features that bisect the sheets and enhance the reliability and repeatability of folding.
  • the sheets may be pre-creased.
  • the sheets may be pre- scored.
  • the sheets may be perforated.
  • the bisecting feature may comprise a line pre-printed onto the transfer media that is configured to align with other components of the apparatus to assist with folding, which will be described in further detail below.
  • apparatus 100 may employ mechanical or optical non-contact sensing elements to assist with alignment of the pre-printed line.
  • an associated printer may print one or more images on either side of the bisecting feature of the sheet to correspond to images that will be sublimated onto various surfaces of a product.
  • the pre-creasing, pre-scoring, pre-printing of a line, and/or perforation of the sheets readily enables proper alignment of the printed images with respect to each other, with respect to apparatus 100, and with respect to the products to be sublimated.
  • the bisecting feature may serve as a positional register for the apparatus, since its location is predictable on the sheets of transfer media.
  • the pre-creasing, pre- scoring, pre-printing of a line, and/or perforation of the sheets of transfer media further facilitates sublimation of images onto opposing sides of a product.
  • Apparatus 100 may include components (described in further detail below) that are configured to manipulate the transfer media at the bisecting feature (e.g. crease, score, line, or perforation), in a manner that substantially surrounds both sides of a product.
  • the bisecting feature e.g. crease, score, line, or perforation
  • to "substantially surround" a product means covering two or more of its surfaces. In such embodiments, both sides can be sublimated substantially simultaneously with increased efficiency and reduced time, wear on the machine, and waste.
  • Transfer printers associated with disclosed embodiments may provide printed sheets of transfer media to other components of apparatus 100 in various ways.
  • gravity may assist providing of the printed sheets.
  • the sheet may naturally fall onto a tray or other staging area associated with the printer and interact with other components of apparatus 100.
  • components may assist the printed sheets of transfer media to interact with other components.
  • the printer may interface with a feed line comprising a series of guides and rollers that may lead the sheet to the next component of the apparatus. Additional detail regarding one such embodiment of an automated printer feeding system will be described below in association with Fig. 16.
  • apparatus 100 may be configured to simply allow an operator to place and transport the printed transfer media by hand to other parts of the system.
  • the associated printer may be disposed in a manner such that it is separate from the rest of the components of apparatus 100 and not enclosed in any kiosk or housing associated with the apparatus.
  • apparatus 100 and its associated printer or printers may not be physically connected to one another.
  • an operator may feed the sheet or sheets of transfer media into the printer for printing, and then manually place the transfer media, now containing the printed images, into the other components of apparatus 100.
  • apparatus 100 may include an active transport mechanism to assist with positioning of the transfer media.
  • a user may place the transfer media with a printed image directly onto a substrate within the housing.
  • Substrate 2 is a substantially flat platen configured to receive the transfer media and align and register it to prepare for the sublimation process.
  • substrate 2 may be a bare platen comprised of a metal (such as steel or aluminum), plastic, or composite product.
  • substrate 2 may be coated or covered with a thermally insulating material, such as a thermal neoprene or a foam rubber, to minimize unwanted heat transfer and loss during the sublimation process.
  • substrate 2 may be configured to provide heat to the sublimation process.
  • Substrate 2 may include components that assist in positioning and securing the transfer media to ensure faithful transfer of the printed image to a desired product. In some embodiments, particularly the clerk-operated kiosk embodiments discussed above, an operator may place the printed transfer media directly onto substrate 2.
  • substrate 2 may include a clamping system 12 comprising one or more clamps disposed on top of the substrate to secure the transfer media to the substrate for sublimation.
  • Clamping system 12 will be described in further detail below in association with Fig. 22.
  • one or more clamps may be situated onto substrate 2 that may be automatically engaged or released to secure the transfer media during sublimation.
  • the clamps may be spring-loaded.
  • two or more such clamps opposing one another may be used as part of clamping system 12.
  • Each of the clamps may comprise one or more bolts penetrating the clamp arms themselves.
  • a solenoid for example, solenoid 26 in Fig.
  • substrate 2 may include features, such as contact or non-contact sensors, to assist with the registration and alignment of the transfer media and/or the products that will receive the sublimated image. Further detail of exemplary mechanical and non-contact sensors is described below and illustrated in Fig. 1 1.
  • substrate 2 may be disposed above a vacuum system (not shown) which provides light suction to secure a portion of the printed transfer media onto substrate 2.
  • a control unit for the apparatus may energize the vacuum system upon placement of the transfer media onto substrate 2.
  • a vacuum generator may be used to provide the negative pressure for the system.
  • the generator may be electric; in other embodiments, a pneumatic venturi system may provide the negative pressure.
  • one or more switches and/or pressure transducers may be placed on vacuum supply lines or other components of the vacuum system. In these embodiments, the switches and/or transducers may serve multiple functions, including providing feedback to the system and to an operator about the health and maintenance status of the vacuum generator and associated pumps, or any other components of the system. Additionally, the switches and/or transducers may play a feedback role in the sublimation process itself. For example, a control unit associated with the sublimation process may detect that the vacuum switch is not triggered, or that the pressure transducer is generating a reading outside of a pre-determined range. In these embodiments, an associated user interface device (not shown) may provide feedback to an operator or to a customer that the transfer media is either absent or not properly aligned, and apparatus 100 may pause until the problem is resolved.
  • substrate 2 may be disposed on a linear motion stage
  • substrate 2 may be conveyed to a "home position" that may be a pre-defined distance away from elements of the sublimation system associated with heat and pressure.
  • the home position may be registered in a coordinate system or other such localization system, and may enable a controller for apparatus 100 to return substrate 2 to the proper home position before and/or after each sublimation cycle.
  • Linear motion stage 14 facilitates proper placement and alignment of the transfer media by allowing more operational space for the system.
  • linear motion stage 14 may be powered by a stepper motor 16. In other embodiments, linear motion stage 14 may be powered by electric, hydraulic, or pneumatic components of apparatus 100, such as components of a hydraulic system as illustrated in Figs 1A-1C and 2.
  • Apparatus 100 may include one or more components to assist with manipulating the transfer media once placed and secured on substrate 2.
  • Apparatus 100 may include one or more components to assist with manipulating the transfer media once placed and secured on substrate 2.
  • apparatus 100 may comprise a motorized swing-arm mechanism 8 to mechanically assist in the folding, unfolding, and eventual disposal of the transfer media. Operation of swing-arm mechanism 8 will be described in further detail below in association with Figures 3A-3D.
  • swing-arm mechanism 8 may be configured to move in a range of motion that performs various functions within apparatus 1 00.
  • substrate 2 may be at its home position with respect to linear motion stage 14.
  • swing-arm mechanism 8 may support a portion of the transfer media not engaged by the clamp system described above.
  • swing-arm mechanism 8 may comprise a bar situated in a fixed position between two mechanical arms.
  • the assembly may be put in motion by a stepper motor, and motion may be governed by one or more drive belts (not shown).
  • swing-arm mechanism 8 may begin clockwise motion via an associated stepper motor to fold the transfer media to substantially surround the product to be sublimated.
  • swing- arm mechanism 8 may position at least one printed image onto each side of the product to be sublimated.
  • swing-arm mechanism 8 may engage an end of the folded-over transfer media, and begin a counter-clockwise motion to unfold the transfer media.
  • swing- arm mechanism 8 may be moved by an associated stepper motor to engage the transfer media left behind and remove it from substrate 2 after clamp pressure is released by clamping system 12.
  • the transfer media may be removed into a waste bin within the housing that may be periodically emptied by an operator.
  • the transfer media may be removed onto a section of the floor of the housing that may open in the manner of a trap door to dispose of the transfer media.
  • the used transfer media may be directed into a shredder (not shown).
  • a robotic transport mechanism such as the one described below in association with Figs. 6A-6B and 7 may remove the used transfer media from substrate 2 and dispose of it.
  • Apparatus 100 may sublimate the printed images on the transfer media to selected products using heating platen 4.
  • Apparatus 100 may contain one or more heating platens. In the embodiment illustrated in Figs. 1A-1C and 2, apparatus 100 contains a single heating platen 4. However, in alternative embodiments, more than one heating platen may be employed in apparatus 100, and substrate 2 may constitute a second heating platen. In alternative embodiments, multiple heating platens may be placed in series, with non-heated platens such as substrate 2 opposing each heated platen.
  • Heating platen 4 may be comprised of any heat-conductive material, such as metal or ceramic. In some embodiments, heating platen 4 is comprised of cast iron, aluminum, or zinc.
  • Heating platen 4 may be surrounded by a heat shield 6, which may be comprised of a material that insulates the system and reduces heat transfer to the exterior surfaces and surrounding elements of apparatus 100.
  • Heat shield 6 may be comprised of metal, plastic, ceramic, rubber, or any other suitable material.
  • Press frame 36 may be made of any suitable material capable of providing sufficient structural support for apparatus 100, such as a metal or a composite material.
  • Frame 36 may be comprised of a material that reduces conductivity of heat and/or electricity to other components of apparatus 100.
  • frame 36 may be joined, by fasteners or by welding, to a press frame base plate (not shown).
  • the press frame base plate may be comprised of metal, plastic, rubber, or any other suitable material that provides structural support and safety features to operators of apparatus 100.
  • the press frame base plate may be further joined to a press mounting match plate (not shown), which may permit mounting of apparatus 100 within a housing 10 that substantially encloses components of apparatus 100.
  • Heating platen 4 may additionally be coated with a compliant material.
  • a compliant material may comprise a foam, rubber, or plastic possessing the ability to maintain structural integrity under high temperatures and pressures.
  • the compliant nature of the platen coating assists in the application of an even heat and pressure across all surfaces to be sublimated. Maintaining consistency of heat and pressure results in higher quality sublimated products, and reduces the risk of damage to either the product or the platen.
  • substrate 2 may be similarly coated with such a compliant material, which will be described in further detail below.
  • heating platen 4 itself may have inherent flexibility, and may be capable of deformation across a product during sublimation to ensure even application of heat and pressure.
  • apparatus 100 may include one or more
  • interchangeable modular fixtures configured to further facilitate alignment of the transfer media and placement of a product onto substrate 2, and to serve as a staging position.
  • the modular fixtures will be described in further detail below in association with Fig. 15.
  • the modular fixtures when present, may each constitute a platform, basin, magazine, or any structure/area that can receive and provide one or more products or accessories to be sublimated.
  • the modular fixtures may be constituent parts of apparatus 100, may be adjacent to the apparatus, or may be proximal to apparatus 100 but not in contact with its components.
  • the modular fixtures may be pre-configured to substantially match the dimensions of a selected product. For example, in some
  • a modular fixture may include one or more dedicated areas or regions sized and shaped to readily fit one of each of a plurality of products available to the apparatus for sublimation.
  • a modular fixture may include a single area tailored to fit a single type of product.
  • a modular fixture may include an area tailored to universally fit any product available to the apparatus for sublimation.
  • the modular fixtures may be configured to receive products in an automated manner from other components of apparatus 100, or alternatively may be configured to receive products manually placed by a user (e.g., a store employee or a customer).
  • one or more selected products for sublimation may be placed on a modular fixture for introduction into apparatus 100.
  • the products may be originally packaged with the modular fixture, or may be placed there either manually or automatically for purposes of a sublimation task. Controlled orientation of the product to be sublimated is important for completion of a high-quality sublimation task.
  • products for sublimation may comprise packaging or other external features that permit proper localization and registration of the products within the apparatus at all times.
  • the products, whether packaged or unpackaged may nest within one another or within the defined tailored areas of the modular fixtures.
  • Products for sublimation may be comprised of various materials. In some embodiments, the products may be comprised of plastic.
  • the products may be comprised of metal, such as aluminum, brass, or steel.
  • the products may be comprised of a ceramic material, a fabric or textile material, wood, fiberglass, or glass.
  • the product regardless of its constituent material, may be additionally coated with a material to enhance integration and permanence of the sublimation dye, such as a polyester material. The added coating may be introduced to the surface of the product in various ways, such as spraying, dipping, painting, etc.
  • Possible candidate products and accessories for use in apparatus 100 may include, but are not limited to, luggage tags, pet tags, bookmarks, identification tags, dog tags, gift tags, ornaments, picture frames, picture frame inserts, cases for a mobile device, inserts for cases for a mobile device, various types of jewelry, such as pendants, bracelets, watch bands, earrings, necklaces, etc., fabrics, such as clothing, banners, draperies, etc., and any item that could integrate sublimation dye and bear a sublimated image.
  • products for sublimation in apparatus 100 are flat plates with opposing surfaces.
  • the products for sublimation may include keys, key heads, or key blades.
  • products could be flat, three-dimensional shapes, such as cubes.
  • curved surfaces are possible.
  • products such as coffee mugs, decorative glass products such as vases or barware, sports balls, and medical identification bracelets could be candidates for receiving sublimated images.
  • Candidate products for sublimation may be provided by the user, or they may be disposed within or proximal to the printing apparatus.
  • the apparatus may be configured as a vending apparatus and the products may be situated inside of the apparatus.
  • the vending apparatus may be capable of receiving a product inserted into the machine by a user.
  • the apparatus may be further configured to receive, sublimate, and/or dispense accessory items that match or accompany candidate products for sublimation.
  • the accessories in a similar manner to the products, may be contained within the apparatus, proximal to the apparatus, or may be inserted into the apparatus by a user. Examples may include, but not be limited to, picture frames, luggage tag holders, bracelets, jewelry, key chains, necklaces, key rings, etc.
  • the inserted accessory may be a pre-packaged accessory designed to accompany the customized sublimated product.
  • Apparatus 100 may be configured to bring heating platen 4 and the transfer media as situated on substrate 2 into contact in order to sublimate printed images onto a product. It is to be understood that various configurations of heating platen 4, substrate 2, and other components of apparatus 100 are possible, and that all such configurations are contemplated by the claims. In some embodiments, heating platen 4 may be moved into contact with substrate 2 and the transfer media (which remain stationary) by apparatus 100. In other embodiments, substrate 2 may be moved into contact with heating platen 4 (which remains stationary). In still other embodiments, both heating platen 4 and substrate 2 may be moved.
  • substrate 2 may be translated on linear motion stage 14 from its programmed home position to a position aligned in the X and Y directions with heating platen 4.
  • the position aligned with heating platen 4 may also be pre-programmed into a control system for apparatus 100, such that substrate 2 is reliably moved to the correct position at the beginning of each sublimation task.
  • apparatus 100 may be configured to press substrate 2 upward such that it is brought into contact with heating platen 4.
  • substrate 2 may be pressed upward via a hydraulic system or pneumatic system.
  • the upward pressing action on substrate 2 may be provided by a system comprising a hydraulic actuator, a pump, a regulator, a reservoir, one or more pressure transducers for feedback control, and one or more control valves within the system to control the direction of the press action.
  • a hydraulic actuator such as the embodiment illustrated in Figures 1A-1C and 2
  • an electric motor (not shown) and a house fluidic system (not shown) linked to apparatus 100 by cables 18 powers a hydraulic pump 20 to generate pressing force.
  • Pump 20 transfers the force to hydraulic actuator 22, which is coupled to press ram 24.
  • Hydraulic actuator 22 provides upward pressing force to press ram 24, which may comprise one or more springs loaded by hydraulic actuator 22.
  • the springs of press ram 24 may be configured to engage the underside of substrate 2 once the substrate has been translated into the proper heat press position proximal to heating platen 4 by linear motion stage 14. This assembly will be discussed below in further detail in association with Figure 23.
  • Hydraulic system press embodiments may be useful for sublimating products of irregular or variable thickness.
  • apparatus 100 may be configured to apply a pre-defined, measured physical force on the product of, for example, about 30 to 40 pounds per square inch (psi).
  • the pre-defined force may be calculable based on the spring constant of the one or more springs comprising press ram 24.
  • press ram 24 may further comprise one or more sensors configured to measure the spring displacement of the one or more springs comprising the spring bed.
  • Apparatus 100 via the user interface device) may be pre-configured with the surface area of each type of product to be sublimated by the apparatus.
  • apparatus 100 may determine the force necessary to achieve 30-40 psi of pressure at the product surface, and then may further determine a hydraulic pressure necessary within the hydraulic system to achieve such a surface pressure using press ram 24. Alternatively, apparatus 100 may receive input of these necessary pressure parameters via the user interface device. Apparatus 100 may then configure the associated hydraulic system (namely hydraulic pump 20) to generate the required pressure. During operation of the system, the one or more pressure transducers associated with the hydraulic system may measure the generated hydraulic pressure, and may transmit feedback comprising the pressure values to a control either associated with the hydraulic system or with apparatus 100 generally. If the generated hydraulic pressure does not match the pressure required for the given product type to be sublimated, the control may configure hydraulic pump 20 to generate more or less hydraulic pressure. In some embodiments, the pressure transducers may further determine and transmit feedback indicating that there is a problem with the system requiring maintenance. The control may be configured to display a message to this effect to a user via the user interface device.
  • the upward press action exerted on substrate 2 may be achieved via a motor-driven cam system (not shown).
  • a cam mechanism with a defined stroke may be used to press substrate 2 upwards and generate the required force (as above, about 30-40 psi) on the surface(s) of the product to be sublimated.
  • the motor-driven cam system may comprise a cam and an associated cam shaft.
  • the cam may be operably connected to cam follower assembly, which is additionally linked to a guide bushing and one or more return springs.
  • At the top of the assembly is a press ram.
  • Said press ram may be made of any suitable material durable enough to withstand contact and pressure exertion, such as metal, rubber, wood, or hard plastic.
  • the press ram may be covered with an additional coating to reduce friction and increase durability.
  • the press ram may be configured to interface with the underside of substrate 2, and press it upwards from linear motion stage 14 in order to bring the substrate (and attached transfer media) into contact with heating platen 4.
  • the press ram may be a solid cylinder, or may be shaped in a manner (such as a forked shape) to allow it to move unencumbered around other components of apparatus 100, such as linear motion stage 14.
  • the motion of the motor-driven cam system is produced and regulated by one or more gear motors, which may be stepper motors or any other suitable mechanism for propelling elements of the cam system.
  • the cam system may additionally comprise one or more cam position sensors, which may be configured to detect the position of elements of the cam system and provide positional feedback to the one or more gear motors, enabling them to, for example, stop upward motion of the system components when the press ram, substrate 2, and heating platen 4 are sufficiently conjoined to produce the necessary pressure on the product to be sublimated.
  • the one or more cam position sensors may be configured to provide feedback to the one or more gear motors enabling them to halt downward motion of the cam system components when the system has returned to a home position.
  • the cam may be configured to accommodate products for sublimation that have variable thickness.
  • the cam may be configured with multiple "lobes" which each define the stroke of the cam system for each of the individual product thicknesses.
  • the lobe may be a wedge-type ramped lobe.
  • a wedge-type ramped lobe may be employed by the cam to cover a continuum of different product thicknesses.
  • apparatus 100 may be configured with one or more controls as discussed previously that control the motion of the one or more gear motors.
  • the user interface device or another optical recognition system associated with apparatus 100 may detect or receive an indication of the product to be sublimated, and may be configured to regulate motion of the cam based on the product dimensions or other properties.
  • the one or more cam position sensors may provide real-time feedback of the position of the cam lobe(s) to the control(s) and to the gear motor(s).
  • the gear motor(s) may drive the cam system to a pre-determined set point for the particular product and product thickness(es), and then may reverse off of the cam's lobe ramp once the sublimation process is completed.
  • substrate 2 may be covered with a heat resistant pad to equilibrate the force across multiple shapes and thicknesses.
  • the pad may be comprised of silicone, or any other suitable heat-resistant, pliable material.
  • the stiffness of the pad may be calibrated such that when the product is pressed into the pad by the cam system, hydraulic system, or pneumatic system, the required pressure of about 30-40 psi is applied evenly across the product surface.
  • the entire system may be configured such that substrate 2 only moves in a purely vertical dimension. Purely vertical motion may be important in apparatus 100 because in preferred embodiments, substrate 2 is separable from linear motion stage 14 for purposes of the vertical press motion described above. Movement of substrate 2 with positional fidelity is thus essential to proper removal and re-seating into linear motion stage 14.
  • the associated propulsion system may therefore be configured with multiple bushings, guide rods, or other positional mechanical guides to enable controlled vertical motion of substrate 2 and successful return to linear motion stage 14.
  • heating platen 4 is operated by apparatus 100 in a single thermal cycle to sublimate the printed images from the transfer media onto the product.
  • the single thermal cycle of heating platen 4 may be configured with a temperature, pressure, and duration sufficient to successfully transfer the image(s) to the selected product.
  • the duration of the thermal cycle measured as the dwell time of the platen on the transfer media, may vary based on the product to be sublimated, the transfer media, and the heating temperature of heating platen 4.
  • heating platen 4 is maintained at a temperature of about 400 degrees Fahrenheit for the entirety of the time that it is in contact with the transfer media.
  • the pressure of the thermal cycle may be about 30 to 40 psi.
  • the linear distance traveled by one or both of substrate 2 and/or heating platen 4 may be monitored and programmed as part of the single thermal cycle in lieu of or in addition to the pressure. This monitoring may be performed, for example, by a cam position sensor as described above, or by one or more other configured sensors. Additionally, linear distance may be measured based on the compression force experienced by press ram 24, which will have a known spring constant permitting accurate force and distance calculations. Alternatively, a linear potentiometer, linear variable differential transformer (LVDT), or other linear measuring sensor may be utilized to monitor and control the press distance.
  • LVDT linear variable differential transformer
  • Controlling linear distances may be important for avoiding breakage of a sublimated product and/or damage to the heating platen or substrate. Such a measurement could be particularly useful in the sublimation of fragile, three-dimensional objects such as ornaments or jewelry.
  • Linear distance may be measured in alternative embodiments as the distance between heating platen 4 and substrate 2. This linear distance may be preset for particular products based on their known dimensions. In such an embodiment, one or both of substrate 2 or heating platen 4 may be pre-configured (e.g. through software) to have a "hard stop" that achieves a desired linear distance while ensuring safety of users and preventing damage to system components.
  • the temperature, pressure, and duration of the cycle are governed by a control (not shown) and software that automatically configures these parameters for the heating platen for a particular sublimation task.
  • the control is disposed within a user interface device (not shown) which is configured to determine the parameters.
  • the temperature, duration, and pressure of a heating platen 4 single thermal cycle may be determined based on a variety of predetermined criteria.
  • the predetermined criteria may include properties of the product being sublimated, including but not limited to dimensions of the product, the material comprising the product, the product's shape or curvature, etc.
  • the predetermined criteria may include characteristics of the printed images, including but not limited to pixel intensity or density of the printed image, colors utilized in the image, size of the image, etc.
  • heating platen 4 may be configured to provide differential heating based on the predetermined criteria; for example, one or more regions on heating platen 4 may be heated to a different temperature than one or more other regions on the platen. In other
  • the differential heating may comprise one or more regions on heating platen 4 that transmit heat for a different duration of time than one or more other regions on the platen.
  • Pressure as used herein may refer to a programmed force configured by the control and exerted as a pressing force by heating platen 4, or it may relate to a position in three dimensional space achieved by heating platen 4 during the thermal cycle.
  • the single thermal cycle of heating platen 4 may be further governed by external factors, such as conditions within the establishment hosting apparatus 100. As discussed above, it is ideal that apparatus 100 be capable of operating within a conventional electrical power configuration, utilizing either a standard 120 volt plug or a dedicated 240 volt plug, such as that used in larger household appliances.
  • Apparatus 100 must be capable of heating relatively quickly without exceeding or draining the power capacity of its host establishment. Therefore, in some embodiments where available power is limited, apparatus 100 and heating platen 4 may be configured in the control software with alternate automated warm-up and cool-down cycles to permit successful sublimation within an existing electrical configuration. In these embodiments, the apparatus may be flexibly reconfigured via the control software to integrate into various deployment environments without the need to replace, alter, or custom design hardware components.
  • apparatus 100 may include a control unit to regulate the temperature of heating platen 4.
  • the control unit may be configured using software to automatically de-energize the heating platen in the event of heating platen failure or overheating over a threshold temperature.
  • the apparatus may further include a redundant secondary safety system independent of heating platen 4 and the control unit to de-energize the heating platen should both the heating platen and the control unit malfunction.
  • heating platen 4 may be consistently kept at its operating temperature.
  • heating platen 4 may be turned off and cooled down between each sublimation task. This configuration may be motivated by safety concerns or for energy efficiency.
  • heating platen 4 may be configured to remain at an intermediate steady state temperature.
  • heating platen 4 may be configured to quickly increase its surface temperature from the steady state point to a sublimation temperature. Maintaining heating platen 4 at an intermediate holding temperature (e.g. 200 degrees Fahrenheit) that is between ambient temperature and sublimation temperatures (e.g. 350 degrees Fahrenheit) allows for quick ramping up to a sublimation temperature. Such a configuration may reduce the wait time to complete a sublimation task, which would lead to more profit-generating capability and more satisfied customers.
  • the intermediate temperature should be selected such that the electronic and/or mechanical components of apparatus 100 internal to the housing are not adversely affected.
  • the control for heating platen 4 described above may be configured to execute warm-up and cool-down cycles for the platen as needed.
  • control unit for heating platen 4 and/or a user interface device associated with apparatus 100 may include a timer that governs the warm-up and cool-down cycles on a set schedule based on certain criteria.
  • the warm-up and cool-down cycles may be configured based on time of day or day of the week, to account for store traffic. For example, heating platen 4 may be kept at a higher steady state intermediate temperature (thus leading to a shorter warm-up cycle) on a Saturday afternoon versus a Tuesday morning because more traffic is likely in the host establishment on
  • the timer may monitor the time since the last sublimation task was completed, and may gradually cool down the platen accordingly.
  • This functionality could be used to automatically shut down the heating platen at the closing time of the host establishment; the timer could be configured to shut the heating platen off completely after a certain number of hours have passed since the last sublimation job. Such a configuration promotes safety and energy efficiency without requiring constant supervision and monitoring of the platen temperature.
  • Heating platen 4 is configured to execute the single thermal cycle in a manner that sublimates printed images onto all desired sides of the selected product substantially simultaneously.
  • Such a configuration streamlines and expedites the sublimation process, and provides the capability to provide a wide range of customized and personalized sublimation products.
  • Advantages to printing opposing sides of a product simultaneously include increased efficiency, reliability, and repeatability of the process. Wear on the system is essentially halved, and thus the life of the machine should be increased and maintenance costs and down time should be reduced. The reduced time taken to sublimate a product for a customer enhances the attractiveness of the product offering in a retail environment; a customer is more likely to purchase a product if the product can be sublimated quickly.
  • the duration of the cycle may be altered depending on the thickness of the product. The programmed duration must account for thermal resistance within the material comprising the product, and must ensure that all surfaces of the product are exposed to a proper sublimation temperature of, for example, 350 degrees Fahrenheit without overheating, warping, or otherwise damaging the platen, the product, or the transfer media.
  • heating platen 4 may further comprise an intermediate sheet of material to further even out heat and pressure across the surface of the item to be sublimated.
  • the intermediate sheet may help prevent the transfer media sticking to heating platen 4, which could smudge or blur the transferred image.
  • the intermediate sheet may be comprised of a material capable of resisting high temperatures without losing structural integrity, such as a thermal tape, or a textile. When present, this intermediate sheet may protect both the product and the apparatus, and increase reliability and repeatability of the sublimation process.
  • the intermediate sheet may remain associated with heating platen 4, and may not be removed after each individual sublimation task.
  • the intermediate sheet may be transported to substrate 2 and aligned and registered on the substrate prior to initiating a sublimation task.
  • apparatus 100 may include an optional cooling system.
  • the cooling system may be configured to cool the sublimated product to at least about an ambient temperature.
  • the cooling process provides safety for handlers of the sublimated object, and also helps ensure the quality and permanence of the sublimation transfer by preventing smearing, blistering, etc.
  • the cooling system may constitute a heat sink.
  • the cooling system may incorporate a passive method of cooling a sublimated product, such as simply allowing the product to cool over time.
  • the passive cooling system may include components or elements that are capable of cooling the product through convection.
  • the passive cooling technique may cool the product via conduction, and may include placing the sublimated product in contact with a panel comprised of a material with high heat capacity and thermal conductivity, such as copper, brass, aluminum, or steel.
  • a panel comprised of a material with high heat capacity and thermal conductivity, such as copper, brass, aluminum, or steel.
  • a panel is illustrated with a series of grooves. It was unexpectedly discovered during development of apparatuses 100 and 500 (to be described below) that when the metal panel did not contain such grooves, a small boundary layer of air tended to develop between the panel and hot sublimated products being brought to the cooling panel by a robot transport mechanism.
  • the cooling system may be configured as an active cooling system.
  • the cooling system may include one or more fans in addition to a heat sink.
  • the cooling system may be configured to sense whether the sublimated product is cooled to the desired temperature.
  • the cooling system may be configured to allow the product to cool for a predetermined duration of time.
  • the cooling system and/or other components of apparatus 100 may be capable of preventing access to the product by a user or consumer until the product is sufficiently cooled.
  • the cooling system may include additional or alternative active cooling elements, including but not limited to a Peltier plate, a Peltier bath, spraying or immersion in liquids such as water, liquid nitrogen, etc., and a heat exchanger.
  • components of apparatus 100 may actively transport the sublimated product through a forced convection cooling field.
  • apparatus 100 may include an associated user interface device (not shown).
  • the user interface device may be configured to assist an operator in selecting one or more images to print on the transfer media, selecting one or more products on which to sublimate the printed images, controlling aspects of the sublimation process, and coordinating payment for the product.
  • An exemplary user interface device will be described below in association with Figs. 5A-5B.
  • apparatus 100 may further include a housing, such as housing 10 in Figs. 1A- 1C, such a housing configured to enclose some or all of the components of apparatus 100 in a manner that prevents an operator from contacting the enclosed components.
  • Housing 10 may be comprised of metal, plastic, glass, or a combination thereof. Housing 10 may serve several important functions: it protects the operator (or others) from burn, pressure, pinch, or puncture injuries that could occur as a result of contact with the apparatus components. Further, housing 10 protects the apparatus itself, shielding the components from wear and tear and keeping them clear of dust, insects/animals, etc.
  • a delivery opening in housing 10 may be configured to provide the product to an operator or another party outside of housing 10.
  • housing 10 protects the operator and other individuals who may encounter the machine.
  • Heating platen 4 and heat shield 6 may be disposed within housing 10 such that they do not touch any of the housing walls, so as to maintain the external surface of housing 10 at a temperature safe for touch.
  • housing 10 may be equipped with a ventilation system.
  • the ventilation system may result in ambient air flowing into the machine, either by natural convection or by forced convection, such as through a series of fans.
  • the ventilation system may be further configured to interface with a larger ventilation system for the retail establishment or other structure hosting the apparatus.
  • a ventilation system may permit heating platen 4 to be kept at a steady state intermediate temperature or even at full operational temperature, without creating burn risks to users or excessively raising the ambient temperature of the surrounding air.
  • the ventilation system may be configured to control a temperature within housing 10 such that the mechanical and electrical components of apparatus 100 are protected from damage and the exterior surface of housing 10 remains touch-safe (e.g., at a temperature that will not harm an individual when that individual's skin contacts the surface). Allowing the enclosed components, including heating platen 4, to remain at an intermediate but safe temperature reduces system warm-up time and customer wait time.
  • Housing 10 also may have value-added functions for the entity hosting the apparatus.
  • housing 10 may feature a decorative design that appeals to customers and attracts interest and business. The design could be proprietary to the maker of the apparatus, or could be designed by the entity hosting the apparatus.
  • Housing 10 may be configured such that a portion of the enclosure is transparent. Such a configuration provides entertainment and education to the user while the sublimation task is underway, and may also allow an operator to take note of components of the apparatus requiring maintenance or repair. As discussed above, offboard configurations of the apparatus may also optionally include such a housing, depending on the needs of the user.
  • the modular subsystem features of the apparatus promote deployment of the apparatus in a variety of ways.
  • the apparatus may be suitable for customizable footprints to meet the needs of the hosting entity. For example, if the apparatus must fit in the corner of a room, the modular design may permit the device to wrap around the corner.
  • a "countertop" configuration might be a good fit for a jewelry counter at a department store.
  • the subsystem configuration increases the flexibility and versatility of the apparatus and increases the market possibilities for the invention.
  • Figs. 3A-3D illustrate the operation of motorized swing-arm mechanism 8 in further detail.
  • swing-arm mechanism 8 may be configured to fold, unfold, and remove the transfer media from substrate 2 as part of the sublimation process.
  • apparatus 100 is shown in the middle of a transfer media folding process.
  • substrate 2 is covered with a pad 38.
  • pad 38 may be comprised of a heat-resistant material, such as silicone, and may be configured to exhibit a stiffness such that the product to be sublimated is subjected to a pressure of about 30 to 40 psi at each surface to be sublimated.
  • a clamping system (described further below in association with Fig.
  • transfer media 42 may secure a sheet of transfer media 42 printed with one or more images to substrate 2 and pad 38.
  • a product 40 to be sublimated is placed on transfer media 42, with product 40 being situated (by manual or automated means) such that each of its surfaces to be sublimated are in contact with a printed image on transfer media 42. Accordingly, transfer media 42 must be folded such that it substantially surrounds product 40 if a printed image is to be sublimated on product 40's top surface.
  • Apparatus 100 may be equipped with a control (not shown) which activates an associated swing-arm stepper motor once apparatus 100 determines that product 40 and transfer media 42 are properly aligned and secured onto substrate 2.
  • swing-arm mechanism 8 may comprise two parallel arms connected by a bar.
  • transfer media 42 is initially placed onto substrate 2 either manually, by an operator, or automatically, by a robotic transport mechanism (described below)
  • a portion comprising approximately half of the transfer media will necessarily be hanging loosely off of substrate 2, since that loose portion is to be folded over to substantially surround product 40.
  • swing- arm mechanism 8 is stationary and fixed in the position illustrated in Figs. 1A-1C and 2, and may support the loose edge of transfer media 42.
  • the home position of linear motion stage 14 as described above may be configured to be a position proximal to swing-arm mechanism 8 so that it may support transfer media 42 in this manner.
  • the associated swing-arm stepper motor may activate, and may pull swing-arm mechanism 8 in a semi-circular arc by way of drive belts (not shown).
  • Each arm of swing- arm mechanism 8 may be associated with an individual drive belt.
  • the bar of swing-arm mechanism 8 engages the loose edge of transfer media 42, and as swing-arm mechanism 8 completes its arc, it may fold transfer media 42 such that it substantially surrounds product 40.
  • transfer media 42 may contain a bisecting feature to facilitate folding, such as a crease or a scored line. Swing-arm mechanism 8 may fold transfer media 42 along this bisecting feature.
  • the stepper motor may pause swing-arm mechanism 8 at a position that enables linear motion stage 34 to translate substrate 2 to a position under heating platen 4 to complete the sublimation task, as described above.
  • This position is illustrated in Fig. 3A.
  • linear motion stage 14 may initially return to its home position, which would again be the position shown in Fig. 3A. However, as illustrated in Fig. 3A, this position is not conducive to unfolding transfer media 42. Therefore, linear motion stage 14 may be configured to translate slightly past its home position, i.e., further away from heating platen 4. This position is shown in Fig. 3B.
  • the swing-arm stepper motor may activate and may move swing-arm mechanism 8 further through its semi-circular arc, such that its bar is below the folded edge of transfer media 42, as shown in Fig. 3B. Once swing-arm mechanism 8 is in place, linear motion stage 14 may return to its home position.
  • an associated swing-arm stepper motor may reverse its motion, and accordingly reverse swing-arm mechanism 8 back through its semi-circular range of motion in order to unfold transfer media 42.
  • the bar of swing-arm mechanism 8 engages the folded edge of transfer media 42, and lifts the loose portion of transfer media 42 off of product 40.
  • swing-arm mechanism 8 completes its semicircular arc and returns to its home position, as shown in Fig. 3D, transfer media 42 is completely unfolded.
  • either an operator in clerk-operated kiosk embodiments
  • a robotic transport mechanism in automated embodiments
  • Transfer media 42 is left on substrate 2.
  • transfer media 42 may be manually removed by an operator or automatically removed by a robotic transport mechanism.
  • swing-arm mechanism 8 may be configured to move transfer media 42 off of substrate 2. This action may be facilitated by the associated swing-arm stepper motor moving swing-arm mechanism 8 in a reverse direction slightly past its home position. Since the bar of swing- arm mechanism 8 remains in contact with transfer media 42, as the mechanism moves further backwards through its range of motion, it may exert leverage on the edge of transfer media 42 and thus catapult it off of substrate 2, where it may be collected for disposal as discussed above.
  • the process described above and illustrated in Figs. 3A-3D may instead be performed by a robotic transport mechanism instead of by swing-arm mechanism 8.
  • FIG. 4 illustrates a view of apparatus 100 during the sublimation task itself, as described previously in association with Figs. 1-3.
  • apparatus 100 brings substrate 2 and heating platen 4 into contact via a hydraulic mechanism.
  • the hydraulic press ram is engaged with the underside of substrate 2, which has been translated into position for the sublimation task by linear motion stage 14.
  • Product 40 is being sublimated with images printed onto transfer media 42 by heating platen 4.
  • Transfer media 42 has been folded to substantially surround product 40 by swing-arm mechanism 8.
  • Swing- arm mechanism 8 is in its "paused" position as described above, awaiting linear motion stage 14's return to its home position.
  • Apparatus 100 may remain in the configuration shown in Fig.
  • FIGs. 5A and 5B illustrate the integration of an apparatus similar to apparatus 100 into a housing 58 configured to permit operation of the apparatus in the manner of a vending machine.
  • Fig. 5A is a profile view of this vending apparatus 800
  • Fig. 5B is a front view.
  • a modified version of apparatus 100 (a sheet-fed sublimation printer system) is situated within housing 58.
  • Components of the apparatus within the vending machine may be substantially as described above and as depicted in Figs. 1 -4, with several additional features added to adapt the apparatus to a fully automated, fully contained, integrated embodiment operable by an untrained consumer safely at a point of sale in a retail setting.
  • an associated printer is included within the housing, and is configured to maintain a supply of a plurality of sheets of transfer media.
  • housing 58 Also included within housing 58 are one or more products and/or accessories of different types. In some embodiments, these products and/or accessories may be maintained in a storage container, such as one or more magazines. As used in this specification, the term "magazine" is to be interpreted broadly beyond its typical plain and ordinary usage to encompass any storage container suitable for use in a vending apparatus.
  • Housing 58 may be configured as discussed above to include a control unit to regulate the temperature of heating platen 4. Maintaining heating platen 4 at an intermediate holding temperature (e.g. 200 degrees Fahrenheit) between ambient temperature and sublimation temperatures (e.g. 350 degrees Fahrenheit) allows for quick ramping up to a sublimation temperature.
  • Housing 58 may further include ventilation components or systems. When present, these systems may interface with other ventilation systems in the retail establishment hosting vending apparatus 500.
  • the ventilation components may be configured to control a temperature within the housing such that the mechanical and electrical components of vending apparatus 500 are protected from damage and the exterior surface of the housing remains touch-safe. Allowing the enclosed components, including heating platen 4, to remain at an intermediate but safe holding temperature reduces system warm-up time and customer wait time.
  • Vending apparatus 500 may include a user interface device 50.
  • User interface device 50 may be configured with various capabilities to facilitate the various steps of a sublimation task.
  • User interface device 50 may include a variety of components to control other components of apparatus 500.
  • Device 50 may contain a computing system (not shown), which may further comprise one or more processors and one or more internal memory devices.
  • the one or more processors may be associated with control elements of apparatus 500 that position and operate the various components.
  • the memory devices may store programs and instructions, or may contain databases.
  • the memory devices may further store software relating to a graphical user interface, which device 50 may display to the user on an output screen 52.
  • the computer system of user interface device 50 may also include one or more additional components that provide communications to other entities or systems via known methods, such as telephonic means or computing systems, including the Internet.
  • User interface device 50 may include input and output components to enable information associated with the sublimation task to be provided to a user, and also for the user to input required information.
  • the input components may include a physical or virtual keyboard.
  • a consumer may first be prompted by device 50 to determine one or more images to be printed by the included printer onto sheets of transfer media.
  • Device 50 may be configured to receive a user-provided digital image file in various ways, including but not limited to receiving insertion of flash memory or a USB drive, connecting via a USB or Firewire ® cable, receiving image files by email, receiving image files uploaded via a mobile application, retrieving user-submitted image files from an online library or website, etc.
  • user interface device 50 may be configured to transmit or receive information from a mobile application associated with one or more of a manufacturer of the vending apparatus, a retailer hosting the vending apparatus, or a third party.
  • vending apparatus 500 and the mobile application may be configured to exchange information relating to the consumer and/or to a sublimation task associated with the user.
  • the information may comprise one or more of information associated with a product the consumer wishes to sublimate, information associated with an image or text to be sublimated on the product, information associated with payment for the sublimated product, or information comprising a location of the nearest vending apparatus.
  • vending apparatus 500 may be configured to receive a fully pre-paid, pre-configured order for a sublimation task from the mobile application.
  • vending apparatus 500 may receive the order directly from the mobile application via user interface device 50 (for example, if a particular vending apparatus 500 is determined to be the closest geographically to the consumer).
  • user interface device 50 may be configured to access a remote server to retrieve information relating to the order from the mobile application.
  • vending apparatus 500 may be configured to receive a code configured to facilitate access by user interface device 50 to information associated with a saved transaction ordered from the mobile application. [001 15]
  • device 50 may be capable of outputting audible notifications or alerts to a customer or operator of vending apparatus 500.
  • device 50 via various internal sensors or transducers integrated within the apparatus, may receive a notification that, for example, the transfer media is misaligned or jammed based on a lack of registration of a fiducial marker.
  • device 50 may be configured to audibly output "PAPER MISFEED” and contact either an on-site or remote customer service representative via audio or visual cues (such as a flashing light) to fix the problem.
  • device 50 may be configured to tell the user to "LOOK AT THE SCREEN" when information is required from the user or important information is displayed for the user.
  • device 50 may be configured to audibly output "YOUR PRODUCT IS READY" when the sublimation process is complete and the product is cooled to a safe handling temperature.
  • the audio output capabilities of vending apparatus 500 may extend to the input components.
  • Device 50 may include a display screen 52, which may serve as both an input and output device.
  • Device 50 may be configured such that key presses on a virtual keyboard or touchscreen buttons associated with display screen 52 elicit confirmatory clicking noises.
  • the input components of device 50, including display screen 52 may be configured to provide tactile or visual feedback to the user to indicate that an input member, such as a key of a keyboard, has been successfully pressed.
  • user interface device 50 may include a camera (not shown in Figs. 5A-5B), which can capture an image at the point of sale to utilize in the printing process and transmit the captured image to the included printer.
  • the camera in conjunction with networking capabilities of device 50, may enable a user in another physical location to perform remote diagnostics, maintenance, and calibration of vending apparatus 500, as well as perform customer service functions to assist a user of the apparatus.
  • the memory of device 50 may contain a plurality of stock images for the consumer to choose from to supplement a user-supplied image or an image captured by the camera.
  • device 50 may be configured to receive input of personal information from the consumer to be sublimated onto a product. Such personal information may include, but is not limited to, a name associated with the consumer, contact information,
  • Device 50 may be configured to generate an image including the received personal information.
  • device 50 may permit the consumer to select from a plurality of possible stock images to incorporate the personal information.
  • device 50 may be configured to, at the selection of the consumer, synthesize the personal information into a selected stock image from the device memory, and provide the single synthesized image to the included printer for printing onto transfer media.
  • device 50 may provide the consumer with the capability to select a product from an associated storage container for sublimation that is preprinted with a stock image stored in the memory of device 50.
  • Device 50 may be configured to store the received personal information as well as any personalized, synthesized, or stock images created or selected by the consumer.
  • device 50 may be configured to prompt the consumer for additional products that they may desire to have sublimated with the same image.
  • Device 50 may be configured to transmit the stored consumer image to a remote network server, and may communicate an indication to the consumer information about additional sublimated or customized products that might be available for the consumer that can be printed and shipped from a remote location.
  • the indication may be communicated to the consumer through various known means of communication, such as by telephone, email, social media, or on an internet webpage associated with one or more of the consumer, the retail outlet hosting vending apparatus 500, or the maker of vending apparatus 500.
  • device 50 may provide further options to the user, including customizing and purchasing accessories for the sublimated product, or configuring a delivery vehicle for the product.
  • Device 50 may also be configured to prompt the user to select a companion accessory for the sublimated product.
  • the accessory also may be capable of sublimation by the apparatus.
  • the user may be prompted to insert a desired accessory into the machine, or the accessory may be contained within the apparatus.
  • Device 50 may be configured to coordinate and collect payment for the accessory.
  • apparatus 500 may be configured to utilize the used transfer media as a delivery vehicle for the sublimated product.
  • the transfer media may be preprinted on one or more sides with text or images associated with the retail outlet hosting vending apparatus 500, or the maker of vending apparatus 500.
  • Device 50 and an included camera may be configured to allow interaction with vending apparatus 500 by remote operators.
  • Device 50 may be configured to include a "hot button" that when pressed, sends a notification to the remote operator asking for live video or audio contact with the operator of the apparatus.
  • a remote technician may be capable of being notified by device 50, and able to view system components live through the camera.
  • Device 50 may be further configured to enable control by the remote technician, who could then perform service on vending apparatus 500 such as clearing jammed transfer media, removing a stuck product from a storage container, retrieving a dropped accessory, etc.
  • device 50 and the included camera may enable real-time customer service interactions with a user.
  • a remote customer service representative may be contacted via device 50's hot button and can interact live with the customer.
  • device 50 may be configured to facilitate live video chat on an included display screen with the representative.
  • device 50 may be configured to facilitate live audio interaction with the representative, similar to a telephone call.
  • pressing the hot button may activate a text-based live chat, or send an email to the customer service representative.
  • the remote customer service may be a value-added service, as the service representative can assist a consumer in purchasing and customizing additional products and/or accessories.
  • Device 50 may be further configured to coordinate and collect payment for the sublimation task.
  • the memory of device 50 may contain information relating to pricing for various types of the plurality of products. The pricing may vary by product, and may vary based on other predetermined criteria, such as the quantity of objects desired, image processing tasks completed, images acquired via an associated camera, etc.
  • Device 50 may display the pricing information on an output screen to the user.
  • Device 50 may include, or be connected to, payment acceptance components that can accept cash, credit cards, or other payment methods from the consumer, such as a coupon, or a payment application on a mobile device.
  • Device 50 may further comprise a product delivery opening 54, through which the customized sublimated product may be dispensed to the user. In these embodiments, device 50 may be configured to prevent access to the sublimated product through delivery opening 54 until payment has been received and accepted.
  • Device 50 may include a printer that can provide the consumer with a receipt of the payment transaction.
  • the receipt may also contain other information, such as an Internet URL for a website associated with either the retail outlet hosting vending apparatus 500, or the maker of vending apparatus 500 for purposes of additional possible products.
  • Device 50 may be integrated into housing 58, as shown in Figs. 5A-5B, or it may be disposed as a distinct device proximal to housing 58 but not integrated within it. It should be understood that a device similar to device 50, with any of the above configurations, may be provided as part of any apparatus contemplated by this invention, whether in a vending or retail context or not.
  • Housing 58 may be configured to include at least one surface portion 56 comprised of a transparent material.
  • the material may comprise, as non-limiting examples, acrylic, glass, fiberglass, plastic, or a hybrid material.
  • Transparent surface portion 56 may be oriented in a manner that makes the components of the dye sublimation printer apparatus, such as apparatus 100, visible to a consumer or other operator while safely shielding the user from heat, pinch points, stored energy sources, and other such potential hazards associated with the operation of heavy machinery.
  • Transparent surface portion 56 may provide entertainment and education to the user while the sublimation task is underway, and may also allow an operator to take note of components of the apparatus requiring maintenance or repair.
  • transparent surface portion 56 may facilitate remote diagnostics, maintenance, and user assistance via the configured features of user interface device 50.
  • FIGs. 6A, 6B, and 7 illustrate interior views of a vending apparatus 500, consistent with disclosed embodiments.
  • Fig. 6A is a front interior view of vending apparatus 500
  • Fig. 6B is a side view
  • Fig. 7 is a profile view from a slightly different perspective.
  • a modified apparatus 100 and associated printer 60 are situated at the bottom of vending apparatus 500.
  • printer 60 is not shown in Fig. 6B.
  • these components are operable within vending apparatus 500 in substantially the same manner as discussed above.
  • vending apparatus 500 may contain one or more mechanisms for holding or storing a supply of product inventory.
  • One such mechanism may be a storage container, with each storage container containing one type of a plurality of types of products.
  • one or more of the storage containers within vending apparatus 500 may be configured to store included accessories for sublimated products. Examples include, but are not limited to, key rings or key chains, covers or holders for luggage tags, frames, handles, etc.
  • stand-alone accessories may also be contained in a storage container within vending apparatus 500, or may be introduced to the apparatus by a user. Accessories may serve as value-added components that add to the aesthetics or utility of the sublimated product. The accessories themselves may or may not be sublimated.
  • Accessories may or may not be dispensed at the same time as the sublimated product. For example, one user may customize both a sublimated product and a matching accessory. Another user might purchase and customize only a sublimated product. Finally, another user might purchase and customize a sublimated product, and return to vending apparatus 500 at a later time to purchase one or more accompanying accessories for the product. As discussed above, the accessories may be pre-packaged, and inserted into vending apparatus 500 by the user before, during, or after the sublimation of the product.
  • vending apparatus 500 includes a plurality of product storage containers 74 and a plurality of accessory storage containers 72.
  • the product storage containers 74 may be placed higher on a back wall of housing 58 than the accessory storage containers 72, as shown in Fig. 6A. This configuration permits ready access to sublimatable products by the robotic transport mechanism, and ensures that accessories do not crowd the sublimation apparatus.
  • accessory storage containers 72 may be placed higher on the back wall of housing 58 due to a particular configuration of the device or the sizes and shapes of the involved products and accessories.
  • Each of the plurality of product storage containers 74 and accessory storage containers 72 may contain a plurality of a type of a product.
  • the storage containers may be of different shapes and sizes.
  • a wider product storage container 74 may be configured to store and dispense cases for mobile devices, such as cell phones.
  • a narrower product storage container 74 may be configured to store and dispense, for example, luggage tags or military dog tags to be sublimated. Further detail about product storage containers 74, accessory storage containers 72 and various alternative embodiments therein is provided below in association with Figs. 8 and 17-19.
  • Vending apparatus 500 may be configured to contain a robotic transport mechanism, as illustrated in Figs. 6A, 6B, and 7.
  • the robotic transport mechanism may comprise a series of rails 64X, 64 Y, and 64Z mounted onto one or more walls of housing 58.
  • the robot rails 64X, 64Y, and 64Z may be mounted to an internal structure supported by the base of the machine and not directly to the housing 58.
  • the mechanism further comprises a robotic head unit 66, which is configured to travel along rails 64X, 64Y, and 64Z in three dimensions (X, Y, or Z) by way of a belt, a chain, or a lead screw.
  • robotic head unit 66 may be operably coupled to a telescoping linear actuator 68 and an end effector 70. End effector 70 will be described in detail below in association with Fig. 8.
  • the robotic transport mechanism may be responsible for transporting the printed sheets of transfer media from printer 60 to substrate 2, and may further assist in the alignment of the transfer media on the substrate.
  • printer 60 may itself be configured to automatically place and align the transfer media onto substrate 2.
  • the robotic transport mechanism may additionally be configured to retrieve a selected product and/or accessory from one of product storage containers 74 or accessory storage containers 72, in a process that will be described in association with Fig. 8.
  • the robotic transport mechanism may be configured to pick up the sublimated product, and transport it to a cooling system, such as the system described above and described in further detail below in association with Fig. 12 (not shown in Figs. 6A-6B or 7). Finally, the robotic transport mechanism may provide the cooled sublimated product to delivery opening 54 for the customer to retrieve.
  • the robotic transport mechanism may be deployed within vending apparatus 500 in a variety of configurations not limited to that illustrated in Figs. 6A-6B and 7.
  • the mechanism may comprise a single robotic head unit 66 and end effector 70, and rails 64X, 64Y, and 64Z may be configured essentially in an "H" shape that primarily allows movement in the X and Y directions. Movement in the vertical Z direction is achieved via a telescoping linear actuator 68, as shown in Fig. 6A.
  • rails 64Z may be omitted.
  • Linear actuator 68 permits end effector 70 to fit into tight areas within vending apparatus 500, and permits it to perform precise movements, such as the alignment of the transfer media on substrate 2.
  • a telescoping linear actuator permits a freer range of motion without contacting elements of the heat press assembly associated with apparatus 100.
  • the robotic transport mechanism may not include a telescoping linear actuator 68. Instead, the robotic transport mechanism may contain multiple end effectors 70. Rails 64X, 64Y, and 64Z may be configured in a manner that permits head unit 66 and end effectors 70 to essentially cover their own "region" in the Z-plane within vending apparatus 500. Thus, in the example shown in Figs. 6A-6B and 7, one end effector 70 might be situated higher on the robotic head to access the top half of vending apparatus 500, and might for example be responsible for retrieving products and accessories from product storage containers 74 and accessory storage containers 72 in the top half of vending apparatus 500.
  • Another end effector 70 might be situated lower on the same robotic head to access the bottom half of vending apparatus 500, and might be responsible for all transport activities associated with the sublimation functions of apparatus 100 and/or delivery of sublimated products to the user via delivery opening 54. All of these robotic motion operations may be performed in full view of transparent section 56 of housing 58, so that the customer may visualize and enjoy the process of their sublimated product's creation.
  • Figs. 8A-8C illustrate end effector 70 in detail, and further illustrate how the robotic transport mechanism may be configured to retrieve products from product storage containers 74 and accessory storage containers 72.
  • end effector 70 contains several implements that help it interact with various components of vending apparatus 500.
  • end effector 70 may contain one or more vacuum suction cups 80.
  • Suction cups 80 may be arranged in various configurations on the underside of end effector 70.
  • end effector 70 may comprise three suction cups 80, and the suction cups may be arranged in a triangle shape, with two suction cups collinear with one another and the third cup offset from them.
  • end effector 70 may be linked via cables to an independent vacuum system (not shown).
  • the vacuum system associated with end effector 70 and suction cups 80 may be configured to contain one or more switches or transducers designed to provide feedback to a control (not shown) indicating whether or not the vacuum system is engaged.
  • Each suction cup 80 may have a vacuum switch indicating its engagement status to the control.
  • end effector 70 may be configured to use two suction cups 80 to pick up a product, such as a luggage tag. If, after retrieving the tag, only one of the suction cups 80 indicates that its suction is engaged, it may indicate a problem, such as an improper pickup of the tag.
  • the control may be configured to stop system activity and, for example, drop the tag that was improperly retrieved and properly retrieve a new tag.
  • end effector 70 may be configured with two coplanar suction cups 80 situated on the same horizontal plane in order to grab, hold, and transport larger objects, such as the transfer media or larger products. An example end effector 70 will be described in further detail below in association with Figs. 24A-24C.
  • End effector 70 may also include a mechanical implement 82 that assists with various functions.
  • end effector 70 may use mechanical implement 82 to interact with product storage containers 74 and/or accessory storage containers 72 to retrieve products. This process is illustrated in detail in Figs. 8A-8C, and will additionally be discussed below in association with Figs. 17-19.
  • a product storage container 74 may be configured to include a "shuttle" 84 that acts as a dispenser for products contained within the storage container.
  • product storage container 74 contains a plurality of small, flat items such as luggage tags.
  • Shuttle 84 in these embodiments may be configured to contain a well or other small depression in which a single luggage tag may be held for retrieval by the robotic transport mechanism.
  • the stack of other luggage tags may be restrained in some embodiments by a spring-loaded system (not shown), such that engagement and translation of shuttle 84 may dispense exactly one luggage tag.
  • Shuttle 84 may also contain a hole cut to substantially the same dimensions of mechanical implement 82. Mechanical implement 82 may be configured to fit into this hole in shuttle 84 in order to gain access to products inside of product storage container 74.
  • end effector 70 has moved proximal to product storage container 74, and has engaged shuttle 84 via mechanical implement 82.
  • robotic head unit 66 and/or linear actuator 68 (not shown) translates end effector 70 away from product storage container 74. This action has the effect of pulling shuttle 84 fully open so that the product 40 held within it can be freely accessed.
  • robotic head unit 66 and/or linear actuator 68 first moves end effector 70 upwards, so that mechanical implement 82 disengages with shuttle 84.
  • Robotic head unit 66 and/or linear actuator 68 then may translate end effector 70 towards product storage container 74, such that one or more suction cups 80 are aligned above product 40.
  • Robotic head unit 66 or an associated control (not shown) may energize the vacuum system associated with end effector 70 and suction cups 80.
  • Robotic head unit 66 and/or linear actuator 68 may then move end effector 70 downwards such that the suction cup(s) 80 engage product 40.
  • robotic head unit 66 and/or linear actuator 68 may translate end effector 70 up and away from shuttle 84 and may transport product 40 to apparatus 100.
  • end effector 70 may first re-engage shuttle 84 via mechanical implement 82 and replace shuttle 84 back into product storage container 74. In other embodiments, end effector 70 may return to product storage container 74 after placing product 40 on substrate 2 and may then close shuttle 84. In still other embodiments, shuttle 84 may be configured to automatically close once product 40 is removed.
  • the robotic transport mechanism may perform a similar process to the one just described in association with product storage container 74 to retrieve accessories from an accessory storage container 72 (not shown in Figs. 8A-8C). The only difference between the product retrieval and accessory retrieval processes is the destination of the item; the robotic transport mechanism transports the products, such as product 40, to apparatus 100 within vending apparatus 500 to be sublimated. Conversely, the robotic transport mechanism may transport an accessory directly to delivery opening 54.
  • end effector 70 may be equipped with one or more sensors and a camera that may be configured to interface with a vision system that will be described below in association with Figs. 10-12 and 17-21.
  • Said sensors may be configured to read and recognize indicia on one or more of sublimatable products, accessories, or other integrated components of apparatus 500.
  • these indicia may constitute fiducial markers, such as those described below in association with Fig. 21.
  • the indicia may constitute barcodes, QR codes, or other such machine-readable indicia.
  • the one or more sensors associated with end effector 70 may be infrared sensors. Alternatively, the sensors may be laser sensors.
  • the one or more sensors may be configured to operate as part of an automated inventory management system that will be described in further detail below.
  • the one or more sensors may be situated on a side of end effector 70, and may be configured such that each sensor is pointed in a downward direction.
  • systems associated with apparatus 500 may determine inventory levels of products or accessories within the apparatus using the vertical distance traveled by the laser or infrared beam before recognizing an indicia and/or the physical presence of a product or accessory within the storage containers or other storage containers.
  • the one or more sensors may be situated on end effector 70 proximal to mechanical implement 82, and may be configured such that each sensor is pointed in a forward direction.
  • the vision system may be configured to recognize when the infrared or laser beam contacts the top of a stack of products or accessories within the storage containers described above, and may use such data to determine the inventory level of the given product or accessory.
  • Figs. 9A-9F illustrate exemplary images that may be associated with the apparatuses described above in association with Figs. 1-8.
  • a single sheet 90 of transfer media is shown, with printed images 92 printed (by a printer such as printer 60) onto either side of the bisecting feature.
  • Image 92 is an example of an image that may be determined by a consumer for printing.
  • the image(s) may be a user-provided image received through user interface device 50.
  • the image(s) may be stock images preloaded into the memory of user interface device 50.
  • the image(s) may constitute text input received by device 50.
  • the image(s) may be captured by a camera associated with device 50.
  • the image(s) may also represent a combination or composite of the above described options.
  • the consumer may provide the image by portable media as discussed above.
  • a printed sheet 90 such as that described in Fig. 9A would be aligned onto a substrate, such as substrate 2, and engaged by one or more heating platens, such as heating platen 4, for sublimation onto one or more products.
  • images 92 may be mirrored by the apparatus from their original orientation to facilitate simultaneous double-sided printing.
  • Printer 60 may be configured to automatically process and invert the images 92 such that they may be printed in the mirrored fashion.
  • Fig. 9A also illustrates printed fiducial markers to assist in alignment of sheet 90.
  • Figs. 9B, 9C, and 9D illustrate top, side, and bottom views, respectively, of a finished product that has been sublimated using the transfer media and images featured in Fig. 9A.
  • Figs. 9E and 9F illustrate examples of a user-provided image 94, a stock image 96, and a synthesized image 98 as described above in relation to vending apparatus 500.
  • Image 94 like image 92, may represent either a consumer-supplied image or an image captured by camera 84.
  • Image 96 may be an example of a stock image, contained in the memory of a user interface device such as device 50 of apparatus 500. In the example of image 96, elements relating to a geographical destination, in this case, Hawaii, constitute the image.
  • a consumer may opt, via device 50, to synthesize a consumer- provided image such as image 94 with a stock image, such as image 96, to create a synthesized image 98.
  • the user interface device could then provide synthesized image 98 to a dye sublimation printer, such as printer 60, to print the image in preparation for sublimation.
  • a consumer could alternatively select to print only image 94 onto a product, or only image 96.
  • a consumer could opt to print a consumer-supplied image such as image 94 onto one surface of a product, and print a stock image like image 96 onto another surface.
  • Other alternatives are possible, such as consumer- supplied image 94 and synthesized image 98 on opposing sides of a product, etc.
  • the transfer media may contain one or more printed indicia and/or fiducial markers readable by the machine vision tracking system described previously to confirm location and orientation of the transfer media.
  • An example of such an embodiment is illustrated in Fig. 10.
  • Proper alignment of the transfer media in a sublimation printing apparatus such as apparatuses 100 or 500 described above is particularly important when the apparatus is configured to print on opposing sides of a product substantially simultaneously. Even a slight misplacement of the transfer media, and thus the printed images, may trigger a defective sublimated product.
  • Fig. 10 illustrates a top view and a perspective view of a sheet of transfer media with images printed on its surface, such as sheet 90 and images 92 described above in association with Fig. 9.
  • the sublimation apparatus (which may be, for example, any one of apparatuses 100 or 500) may be equipped with a machine vision tracking system 1002.
  • System 1002 may be substantially as described above, and may include one or more cameras, as well as one or more control units capable of executing software commands.
  • System 1002 may be mounted in a fixed position on a transport mechanism, such as on end effector 70, or it may be configured to freely move along the mechanism.
  • sheet 90 has been printed with a set of fiducial markers 1004.
  • the machine vision tracking system 1002 may be configured to confirm the location of a given sheet of transfer media such as sheet 90 in the apparatus using visual confirmation or scanning means at set time periods, or when contact or non-contact sensors detect that sheet 90 has progressed to a new part of the apparatus. The machine vision tracking system 1002 may determine that sheet 90 is susceptible to overheating and preemptively act to de-energize the heating platen and request service.
  • This process may occur, for example, when the machine vision tracking system 1002 determines that the media and heating platen have been in contact for a time period exceeding a predetermined threshold value.
  • the predetermined threshold value may be based on the temperature of the platen or properties of the product being sublimated.
  • the fiducial markers 1004 may also serve as indicators of the performance of the apparatus; if the apparatus senses via the markers that the transfer media is being consistently misaligned, hung up, or otherwise not moved smoothly through the system, it may indicate that the apparatus requires maintenance.
  • Markers 1004 may constitute machine-readable barcodes, printed patterns, QR codes, etc.
  • markers 1004 may be directly read by machine vision tracking system 1002.
  • images of markers 1004 may be captured by a camera, which may or may not be part of system 1002, and the images may be analyzed and confirmed via software. Markers 1004 may be pre-printed on sheet 90, or they may be printed by printer 60 at the time images 92 are printed onto sheet 90.
  • the markers 1004 may constitute crosshairs, and one or more markers may be placed around the periphery of the printed image to assist with alignment tasks governed by the robotic transport mechanism and substrate 2 as described. Further description of fiducial markers 1004 and how they may be utilized by vision system 1002 is located below in association with Fig. 21.
  • fiducial markers 1004 may be utilized by apparatus 100 or 500 to perform an automatic self-calibration process.
  • a user interface device associated with the apparatus may configure printer 60 to print calibration images onto transfer media.
  • the calibration images may comprise a pattern readable by components of the apparatus, such as machine vision tracking system 1002, as well as a set of fiducial markers 1004. Once printed, the transfer media bearing the calibration images may be transported from printer 60 to substrate 2 manually by an operator, or automatically by end effector 70, as described.
  • Machine vision tracking system 1002 may be configured to track the alignment of the calibration images using fiducial markers 1004 as described above.
  • System 1002 may be further configured to compare the location of markers 1004 (e.g., using coordinates) when the transfer media is aligned on substrate 2 to a pre-determined set of coordinates associated with an "ideal" alignment, such as a home position, or a default configuration.
  • System 1002 may be configured to determine offsets in each dimension using the calibration images on the transfer media.
  • the offset information may be stored locally in a memory device associated with the user interface device, or the user interface device may be configured to transmit the information to a remote server.
  • Apparatuses 100 or 500 may be configured to automatically adjust the calibration of relevant components to correct the offsets, such as printer 60, end effector 70, substrate 2, or machine vision tracking system 1002. Further detail regarding machine vision tracking system 1002 and fiducial markers 1004 will be described below in association with Fig. 21.
  • alignment of the transfer media on the substrate of a disclosed apparatus may be additionally facilitated by optional mechanical sensors and or non-contact sensors. Examples of such implements are illustrated in Fig. 1 1.
  • proper alignment of the transfer media in a sublimation printing apparatus such as apparatuses 100 or 500 described above is particularly important when the apparatus is configured to print on opposing sides of a product substantially simultaneously.
  • End effector 70 and/or substrate 2 may include one or more non-contact sensors 1 102 to aid in automatic transfer media and/or product alignment, orientation, and registration.
  • Non-contact sensors within the scope of the invention include, but are not limited to, optical sensors, proximity sensors, or digital cameras, which may be mounted on any or all of end effector 70, other components of the robotic transport mechanism, and substrate 2.
  • sensors 1 102 may comprise light sources configured to provide through-beams of visible, infrared, or laser light that may indicate to an operator if the transfer media is properly aligned and registered on substrate 2.
  • the indication may occur visually on substrate 2 or a nearby structure itself (for example, red and green LED lights, with the green light illuminating when the transfer media is properly aligned or past a certain location within the apparatus), or may be transmitted to a user interface device and presented in a graphical user interface.
  • a nearby structure for example, red and green LED lights, with the green light illuminating when the transfer media is properly aligned or past a certain location within the apparatus
  • Non-contact sensors 1 102 may be associated with one or more control units that control the motion of end effector 70 or other aspects of the robotic transport mechanism, and may form part of an integrated, automated alignment system.
  • end effector 70 may be configured to transport and align a sheet of printed transfer media from printer 60 to substrate 2.
  • sensors 1 102 may be configured to sense that the transfer media has passed over them, such as by breaking a through-beam, by sensing a change in optical clarity, or by a visual confirmation if sensors 1 102 are configured to include a digital camera. When sensors 1 102 are triggered, they may signal to the control unit controlling the robotic transport mechanism and/or end effector 70 to immediately cease further forward motion of the transfer media onto the substrate.
  • Sensors 1 102 may be further configured to detect misalignment of the transfer media. For example, if the transfer media is placed on substrate 2 at a slight angle, sensors 1 102 may be able to detect the error in the media placement and either signal to the control unit controlling the robotic transport mechanism to take corrective measures, or signal to other software components to account for the misplacement during further operation of the apparatus.
  • substrate 2 may be disposed relative to printer 60 such that a series of mechanical guides assist in the placement of the transfer media.
  • a tray attached to printer 60 may be configured to form a funnel shape, such that the transfer media can only approach substrate 2 in a predetermined manner.
  • Substrate 2 may be fitted with guide rails or other such stationary mechanical implements to position and align the transfer media and/or products, such as mechanical implements 1 106.
  • Such mechanical implements may be disposed under the immediate surface of substrate 2, and may be situated in holes or divots in substrate 2.
  • mechanical implements 1 106 may be retractable, and are only visible and engaged while aligning and positioning the transfer media.
  • implements 1 106 may be configured as mechanical switches that provide guidance for orientation and alignment of the transfer media.
  • implements 1 106 may serve as stops for the transfer media, such that when an edge of the media hits the switch, apparatus 100 automatically stops moving the media in that direction.
  • implements 1 106 may be configured to serve as gates, and may be retractable. The transfer media may be fed or transported over top of implements 1 106, then positioned in the X-Y dimension once beyond them.
  • An example embodiment of a mechanical guide system associated with mechanical implements 1 106, printer 60 and substrate 2 will be described in further detail below in association with Figure 16. [00144] Turning to Fig. 12, Fig.
  • cooling plate 1200 may serve as a passive cooling system as described above.
  • Cooling plate 1200 may be comprised of any material with high heat capacity and thermal conductivity, such as copper, brass, aluminum, or steel. In these embodiments, cooling plate 1200 may constitute a heat sink. Cooling plate 1200 may be manufactured and installed within vending apparatus 500 in any shape or size based on the products to be sublimated within the particular apparatus 500. In preferred embodiments, cooling plate 1200 is approximately the size of a sheet of typing paper: about 8.5" wide by about 1 1 " long. Cooling plate 1200 may be any thickness, but is preferably about 0.75" thick. In some embodiments, a cooling plate 1200 may also be associated with an apparatus 100 outside of a vending environment. The cooling plate may simply be placed proximal to the apparatus, and a sublimated product may be placed on it to cool either manually by an operator or automatically via a robotic transport mechanism as discussed above.
  • cooling plate 1200 As discussed above, it was unexpectedly discovered during development of apparatuses 100 and 500 that the inclusion of several grooves 1202 within cooling plate 1200 was advantageous. Without the presence of grooves 1202, a small boundary layer of air tended to develop between cooling plate 1200 and hot sublimated products being brought to the cooling plate by a robot transport mechanism within apparatus 500. Due to the presence of this layer of air, the sublimated product would often slide to the edge of cooling plate 1200 or off of the plate altogether, resulting in the product being outside of the usable range of the robot. This error resulted in either total loss of the sublimated product or required manual operator intervention.
  • grooves 1202 may be depressions milled partially through the surface of cooling plate 1200. In alternative embodiments, grooves 1202 may be slits cut entirely through the surface of cooling plate 1200. Any given cooling plate 1200 may contain grooves 1202 as depressions, slits, or a combination thereof. Grooves 1202 may be of any size, shape, or number within cooling plate 1200. In preferred embodiments, grooves 1202 may be about 0.125" wide, about 5" long, and may be placed about 0.5" apart on the surface of cooling plate 1200.
  • the robotic transport mechanism of vending apparatus 500 described above may be configured to perform a transport mechanism operation process 1300, such as that shown in the example of Fig. 13.
  • the robotic transport mechanism may be configured to pick up a sheet of transfer media from printer 60 that has been printed with digital images for sublimation (Step 1310).
  • end effector 70 may be configured to pick up the transfer media via a vacuum system and via vacuum suction cups 80.
  • the vacuum system may provide feedback as discussed above via switches that indicate to vending apparatus 500 whether the transfer media is properly and securely fastened to the suction cups 80.
  • Robotic head unit 66 and end effector 70 may position the transfer media onto a substrate, such as substrate 2 (Step 1320).
  • vending apparatus 500 may be configured to move the transfer media to substrate 2 in a variety of ways. Once placed in proximity to substrate 2, vending apparatus 500 may position and align the transfer media on the substrate using one or more of the components described above, such as mechanical guides, mechanical switches, optical switches, machine vision systems, or a combination of one or more such components. Examples of these elements are described below in association with Fig. 21.
  • the robotic transport mechanism may be configured to retrieve and position a selected product onto the transfer media once the transfer media is placed and aligned on substrate 2 (Step 1330).
  • the selected product is selected and retrieved automatically by the robotic transport mechanism from a product storage container, such as product storage container 74. This process is described above in association with Figs. 8A-8C.
  • end effector 70 may pull open shuttle 84 of storage container 74, and may pick up product 40 with suction cups 80.
  • Alignment of the selected product on the transfer media may also utilize one or more of the mechanical guides, mechanical switches, optical switches, and machine vision systems described above. The selected product may be aligned onto one of the printed images on the transfer media.
  • the robotic transport mechanism may pause while the sublimation process is completed by apparatus 100 and associated components. After sublimating the image(s) onto the selected product, in some embodiments the robotic transport mechanism may transport the sublimated product to an associated cooling system, such as that described above in association with Fig. 12, and may facilitate the cooling of the sublimated product to at least about an ambient temperature (Step 1340).
  • an associated cooling system such as that described above in association with Fig. 12, and may facilitate the cooling of the sublimated product to at least about an ambient temperature (Step 1340).
  • vending apparatus 500 may determine if an accessory has been purchased by the customer in association with the sublimated product (Step 1350).
  • the customer may indicate a desire to purchase an accessory via user interface device 50.
  • vending apparatus 500 may be configured such that a particular product automatically comes with an accessory. If an accessory is determined to be associated with the transaction (Step 1350: YES), the robotic transport mechanism may translate robotic head unit 66 into proximity with the accessory storage container 72 containing the selected accessory, and may retrieve at least one accessory from storage container 72 in a process substantially the same as that described above with respect to Step 1330 (Step 1352). The robotic transport mechanism may transport the retrieved accessory to product delivery opening 54, where it may be retrieved by the customer (Step 1354).
  • the robotic transport mechanism may retrieve the accessory while the sublimation task of the associated product is still underway; for example, while the sublimated product is cooling.
  • the accessory may only be retrieved after occurrence of another event, such as providing the product to the customer via product delivery opening 54, or receiving payment from the customer via user interface device 50 and associated components.
  • the accessory itself may be sublimated.
  • vending apparatus 500 may sublimate the accessory in substantially the same manner as discussed above for sublimating products.
  • Step 1350 If no accessory is purchased or otherwise associated with the transaction (Step 1350: NO), or if the accessory retrieval process has already been completed at Step 1354, the robotic transport mechanism may transport the cooled, sublimated product to product delivery area 54 (Step 1360). As described above, the product is again transported using vacuum suction cups 80 associated with end effector 70. Vending apparatus 500 may provide the product and/or accessory to the customer immediately, or may withhold the product until another event occurs, such as receiving payment for the items, or after presenting the customer with a solicitation to purchase additional products and/or accessories. [00153] Apparatus 100 and vending apparatus 500 may be configured to perform a sublimation process, such as that shown in the example of Fig. 14.
  • a printer associated with the apparatus may print one or more customer- identified images on a transfer media (Step 1405).
  • the image(s) may be a user provided image received through user interface device 50.
  • the image(s) may be stock images preloaded into the memory of user interface device 50.
  • the image(s) may constitute text input received by device 50.
  • the image(s) may be captured by a camera associated with device 50.
  • the image(s) may also represent a combination or composite of the above described options.
  • the sublimation apparatus may position the transfer media onto a substrate, such as substrate 2 (Step 1410).
  • a substrate such as substrate 2
  • an operator may manually place the transfer media onto substrate 2.
  • a robotic transport mechanism may move the printed sheet of transfer media from printer 60 to substrate 2, using end effector 70 and vacuum suction cups 80.
  • vending apparatus 500 may be configured to move the transfer media to substrate 2 in a variety of ways. Once placed in proximity to substrate 2, vending apparatus 500 may position and align the transfer media on the substrate using one or more of the components described above, such as mechanical guides, mechanical switches, optical switches, machine vision systems, or a combination of one or more such components.
  • the sublimation apparatus or an operator of the apparatus may be configured to retrieve and position a selected product onto the transfer media once the transfer media is placed and aligned on substrate 2 (Step 1415).
  • an operator may manually place select a product and place it on the transfer media, or may utilize a modular fixture configured to be associated with the selected product, as discussed below in association with Fig. 15.
  • the selected product is selected and retrieved automatically by a robotic transport mechanism from a product storage container, such as product storage container 74. This process is described above in association with Figs. 8A-8C.
  • Alignment of the selected product on the transfer media may also utilize one or more of the mechanical guides, mechanical switches, optical switches, and machine vision systems described above. The selected product may be aligned onto one of the printed images on the transfer media.
  • swing-arm mechanism 8 may further be configured to fold the transfer media to substantially surround the product (Step 1420), wherein at least one printed image is positioned on each side of the product.
  • apparatus 100 may fold the transfer media along a bisecting feature using swing-arm mechanism 8 in a process described above in association with Figs. 3A-3D. Upon folding the media, one or more images may be positioned proximal to each side of the product to be sublimated.
  • Apparatus 100 via linear motion stage 14, may engage substrate 2 and heating platen 4 (Step 1425), in a process described above in association with Figs 1A-1C and 2.
  • Process 1400 continues with the sublimation apparatus bringing heating platen 4 into contact with substrate 2 and the associated transfer media (Step 1430) and sublimating the one or more printed images onto opposing sides of the product substantially
  • the single thermal cycle may further include a predetermined pressure.
  • parameters for the single thermal cycle that enable simultaneous printing on multiple sides of a product may be determined automatically by vending apparatus 500. The parameters may be based on one or more of the material comprising the product, the dimensions of the product, characteristics of the printed images, or other predetermined criteria.
  • apparatus 100 via linear motion stage 14, may translate substrate 2 back to its home position (Step 1440), in a process described above in association with Figs. 1A-1C and 2.
  • swing-arm mechanism 8 may unfold and assist in disposal of the transfer media when substrate 2 returns to the home position.
  • a robotic transport mechanism may pick up the product and transport it to other components of the apparatus as described below.
  • the sublimation apparatus may cool the sublimated product to at least about an ambient temperature (Step 1445).
  • Vending apparatus 500 may cool the product using an optionally-equipped cooling system as described above in association with Fig. 12.
  • Vending apparatus 500 may employ an active cooling system, using fans, sprayers, water baths, etc., or may employ a passive system like that of cooling plate 1200, such as heat sinks and thermally conductive panels of material such as aluminum.
  • vending apparatus 500 may be configured to limit consumer access to the sublimated product via delivery opening 54 until the product has sufficiently cooled.
  • vending apparatus 500 may be configured to provide the product to the customer via delivery opening 54 (Step 1450).
  • user interface device 50 may facilitate and receive payment for the product, and may prevent access to the product until payment is received.
  • Figure 15 shows an exemplary system that may be configured to perform one or more aspects of the disclosed embodiments.
  • the components and arrangement shown in Figure 15 are not intended to be limiting to the disclosed embodiment as the components used to implement the processes and features disclosed here may vary.
  • a system 1500 may be provided that includes a dye sublimation transfer printer 1502, a flat product sublimation apparatus 1504 (comprising flat product modular fixture 1505), a 3D product sublimation apparatus 1506 (comprising flat product modular fixture 1507), a graphical user interface device 1508, and a network 1509.
  • a dye sublimation transfer printer 1502 includes a dye sublimation transfer printer 1502 and a flat product sublimation apparatus 1504 (comprising flat product modular fixture 1505), a 3D product sublimation apparatus 1506 (comprising flat product modular fixture 1507), a graphical user interface device 1508, and a network 1509.
  • Other components known to one of ordinary skill in the art may be included in system 1500 consistent with the disclosed embodiments.
  • Printer 1502 may be substantially the same as the associated printer described above in association with apparatus 100, and substantially the same as printer 60 described above in association with apparatus 500.
  • Printer 1502 may be a dye sublimation transfer printer.
  • printer 1502 may be configured to communicate with a graphical user interface device (such as graphical user interface device 1508), and may further be configured with image processing software to process digital image files submitted by a user via the graphical user interface device.
  • a graphical user interface device such as graphical user interface device 1508
  • Flat product sublimation apparatus 1504 and 3D product sublimation apparatus 1506 may each be configured substantially the same as apparatus 100 described above, and may contain similar components and parts.
  • flat product sublimation apparatus 1504 may further comprise a flat product modular fixture 1505
  • 3D product sublimation apparatus 1506 may further comprise a 3D product modular fixture 1 07.
  • These modular fixtures may be configured as described above to serve as staging areas and alignment aids for particular types of products to be sublimated.
  • 3D product modular fixture 1507 may be configured to assist 3D product sublimation apparatus
  • 3D product modular fixture 1507 may be shaped in a manner that enables secure placement and alignment of the coffee mug within 3D product sublimation apparatus 1506.
  • 3D product modular fixture 1507 may contain additional features depending on its configuration.
  • 3D product modular fixture 1507 may contain elements or indicia (such as a barcode, Q code, computer-readable microchip, etc.) that may assist 3D product sublimation apparatus 1506 in configuring a heating platen thermal cycle to properly sublimate the product.
  • the indicia may contain information about the material comprising the product, including its thermal properties.
  • the indicia may contain instructions on proper dwell time, pressure, and cooling time for the product.
  • Flat product modular fixture 1505 may be similarly configured to aid flat product sublimation apparatus 1504 in the sublimation of a flat product, such as a luggage tag.
  • Modular fixtures 1505 and 1507 may be configured in several ways.
  • the modular fixtures may be specific to a type of product, as discussed above in the example of the coffee mug.
  • the modular fixtures may even be specific to a particular one of a type of product.
  • an operator of system 1500 may have access to a plurality of 3D product modular fixtures 1507, each comprising a single coffee mug and associated indicia. These modular fixtures may be disposable after use.
  • the modular fixtures can be "shuttled" in and out of sublimation apparatuses 1504 and 1506 in a quick, safe manner.
  • 1507 may serve more as generalized staging areas for a type of product, and may be reusable.
  • Graphical user interface device 1508 may be configured in substantially the same manner as user interface device 50 described above in association with vending apparatus 500.
  • Device 1508 may contain various computer systems and components (not shown) which may facilitate submission of a digital image file to be printed on a sheet of transfer media. In some embodiments, much as described above with respect to device 50, device 1508 may be configured to accept payment for the sublimated product, assist an operator or consumer with image processing tasks, perform maintenance on components of system 1500, or other such tasks as described above.
  • Device 1508 may contain
  • device 1508 may be configured to assist an operator or consumer with other tasks, such as making additional orders, selecting digital image files from a stored image source, recalling a saved sublimation task submitted online or by a mobile application, etc.
  • Network 1509 may be any type of network that facilitates communications and data transfer, such as, for example, a Local Area Network (LAN), or a Wide Area Network (WAN), such as the Internet.
  • Network 1509 may be a single network or a combination of networks. Further, the network may comprise a single type of network or a combination of different types of networks, such as the Internet and public exchange networks for wireline and/or wireless communications.
  • Network 1 09 may utilize cloud computing technologies that are known in the marketplace. One skilled in the art would recognize that the network is not limited to the above examples and that system 1500 may implement and incorporate any type of network that allows the entities (and others not shown) included in Fig. 15 to exchange data and information.
  • sublimation apparatuses consistent with disclosed embodiments may be networked together along with a plurality of other such apparatuses (not shown) via network 1509 to a central server or servers (not shown in Fig. 15).
  • the central servers may be associated with one or more of a manufacturer of the sublimation apparatuses, a retailer hosting the sublimation apparatuses, or a third party.
  • each of the networked sublimation apparatuses may be configured to transmit and receive data to the central server(s) via network 1 509.
  • Data transmitted to the servers from the apparatuses may comprise, for example, information relating to one or more of usage of the apparatus, maintenance status of the apparatus, re-stocking needs for the apparatus, digital image files received by the apparatus, etc.
  • Data received from the servers by the apparatuses may comprise, for example, software updates for an associated user interface device (such as graphical user interface device 1508), or other software components.
  • software components may be received from the central server(s) that may be configured to perform maintenance on the sublimation apparatus. It is understood that these are intended to be non- limiting examples, and any information, files, or software may be transmitted to and from a central server. These embodiments are discussed in association with system 1500 solely for illustrative purposes. It is understood that any sublimation apparatus, such as apparatus 100 or vending apparatus 500, may be connected to a network and configured to exchange information with a central server or servers.
  • Figs. 16A and 16B illustrate front and top views, respectively, of a printer assembly 1600 that may be configured to operate with one or more of apparatuses 100 and 500.
  • Assembly 1600 includes a dye sublimation transfer printer, such as printer 60 described above.
  • Printer 60 may be configured as described to print one or more images onto transfer media to then be sublimated onto one or more products.
  • a given apparatus 100 or apparatus 500 may be configured such that printed transfer media may be manually removed from printer 60, either by hand by an operator, or may be set up in a configuration where gravity assists the printed transfer media in accessing substrate 2.
  • a robotic transport mechanism may actively and automatically transport the printed transfer media from printer 60 to substrate 2.
  • Figs. 16A-16B illustrate yet another embodiment of a printer feeding assembly that may be included within an apparatus 100 or apparatus 500 setup to further automate and enhance transfer media feeding, placement, and alignment.
  • a sheet of transfer media (not shown) is printed within the housing of printer 60. Feeding mechanisms typical to printers may then expel the printed sheet of transfer media from printer 60 onto printer tray 1602.
  • Printer assembly 1600 may then activate an electric stepper motor 1604 to turn feeder bar 1606.
  • stepper motor 1604 may always be active.
  • apparatus 100 or apparatus 500 may be configured to detect that a sheet of transfer media is exiting printer 60, and may energize stepper motor 1604 at that time.
  • Such detection may be achieved by placement of one or more mechanical or optical sensors incorporated into printer tray 1602.
  • these sensors may be operatively coupled to sensors 1 102 and/or 1 106 as described above in association with Fig. 1 1, or the sensors may themselves be sensors 1 102/1 106.
  • Feeder bar 1606 may be substantially cylindrical in shape and may be comprised of any usable material, such as metal, plastic, or wood. Feeder bar 1606 may be configured in a manner such that it is situated close enough to the surface of printer tray 1602 to allow only the thickness of a single sheet of transfer media to pass through while rotating. Feeder bar 1606 may be operatively coupled to stepper motor 1604 by a rotor, crank, or other mechanical means such that the force generated by stepper motor 1604 operates to rotate feeder bar 1606 along its longitudinal axis.
  • a sheet of printed transfer media may emerge from printer 60 and engage sensors on tray 1602.
  • Stepper motor 1604 may either already be operational, or its operation may initiate upon an electronic or mechanical cue from the sensors of tray 1602 (such as sensors 1 102/1 106).
  • feeder bar 1606 Upon activation of stepper motor 1604 operation, feeder bar 1606 begins to rotate.
  • the transfer media may engage feeder bar 1606, and feeder bar 1606's rotational motion may assist in propelling the transfer media onto platform 1608.
  • platform 1608 may be an intermediate location between printer tray 1602 and substrate 2.
  • platform 1608 and substrate 2 may be coextensive.
  • Platform 1608 may also include one or more integrated mechanical or electronic sensors, such as sensors 1 102/1 106.
  • the sensor(s) may be configured to detect when the printed sheet of transfer media is fully expelled out of printer 60, and further, when the rotational motion of feeder bar 1606 has completely propelled the transfer media out onto platform 1608.
  • sensors included within platform 1608 may be operatively coupled to stepper motor 1604 and may be configured to halt operation of stepper motor 1604 once the transfer media has processed to the proper location on platform 1608.
  • Platform 1608 may further be operatively couple to other components of apparatus 100, such as clamping system 12, which may activate upon receiving a signal from platform 1608.
  • Fig. 17, Figs. 17A and 17B illustrate perspective and front views, respectively, of an inventory management and deployment system 1700 consistent with disclosed embodiments.
  • inventory system 1700 may be situated within a vending apparatus 500.
  • inventory system 1700 may be configured to be used with a stand-alone apparatus 100 that may be clerk-assisted or user- operated.
  • the back wall of inventory system 1700 may be comprised of any suitable material, such as wood, pressboard, cardboard, plastic, acrylic, aluminum, steel, etc.
  • Inventory system 1700 may include several locks 1702 placed at the end of each row of the system. Each lock 1702 may be mechanically coupled to a locking bar (not shown) located on the rear of the back wall of inventory system 1700. When rotated, switched, or otherwise engaged, lock 1702 engages the locking bar to secure storage containers that may be attached through the back wall of the inventory system.
  • a locking bar not shown
  • an inventory system 1700 may contain one or more product containers 1704 and accessory containers 1712.
  • containers 1704 and 1712 may be the same as or interchangeable with product storage containers 74 and accessory storage containers 72 described above, or they may be distinct.
  • Product containers 1704 and accessory containers 1712 may be configured in a modular manner such that they may be interchangeably installed and removed rapidly within inventory system 1700.
  • Figs. 17A-17B illustrate a series of different containers 1704 and 1712 that may have different heights, widths, and depths based on the products or accessories that they contain. For example, the illustrated embodiment of Fig.
  • FIG. 17A shows various product containers 1704 each containing a stack of a plurality of different sublimatable products 1706, such as heart-shaped pet tags, bone-shaped pet tags, luggage tags, military dog tags, and various products related to mobile devices.
  • Each product container 1704 includes a shuttle 1708, which presents a single product that can be picked up by, for example, end effector 70 of a robotic transport mechanism as described above.
  • Each shuttle 1708 also contains a hole, divot, or other such feature near its end, which can interface with mechanical implement 82 of an end effector 70.
  • the shuttles 1708 can each thus be operated in the manner illustrated in Figs. 8A-8C to open the shuttle and remove a single product for sublimation.
  • pins 1710 The individual stacks of products 1706 are held in place by pins 1710.
  • one or more of the pins 1710 associated with each product container 1704 may be removable, enabling refreshment of the product stack by a front-loading process that can be readily automated.
  • all pins 1710 may be stationary on product container 1704 and the products may be refreshed by a top-loading process.
  • Pins 1710 may be movable on the surface of product container 1704 to account for different shapes and sizes of products 1706.
  • a product container 1704 with a thinner width such as the pet tag containers in the upper left of Figs. 17A and 17B, may be mountable on a single pair of key slots located on the back wall of inventory system 1700, and may be locked into place using locks 1702.
  • Wider containers such as the mobile device product storage containers to the right of the pet tag containers, may be mountable on two or three sets of key slots.
  • This common dimensionality allows interchangeability of product containers 1704 and accessory containers 1712, and permits rapid re-arrangement and redeployment of different products and accessories within vending apparatus 500. This may assist the retailer hosting vending apparatus 500 to rotate out offerings based on season, location, special events, etc., and enhances the profit generation capabilities of the vending apparatus.
  • accessory containers 1712 are located on the back wall of inventory system 1700 below the product containers 1704.
  • various complementary accessory containers 1712 may be deployed within inventory system 1700, each containing a stack of a plurality of different accessories 1714.
  • accessory containers 1712 may not include spring-loaded shuttles 1708 in the manner of product containers 1704 described above.
  • individual accessories 1714 may be packaged and presented in boxes or other such wrapping.
  • the individual accessories are larger and easier for an end effector 70 to grasp, and a shuttle system may not be required for accurate retrieval.
  • the shuttles may be included.
  • the individual stacks of accessories 1714 are held in place by pins 1716.
  • one or more of the pins 1716 associated with each accessory container 1712 may be removable, enabling refreshment of the accessory stack by a front-loading process that can be readily automated.
  • all pins 1716 may be stationary on accessory container 1712 and the products may be refreshed by a top-loading process.
  • Pins 1716 may be movable on the surface of accessory container 1712 to account for different shapes and sizes of accessories 1714.
  • Figs. 18A-18C are detailed views of a product container 1704 as described above.
  • product container 1704 is filled with a stack of products 1706, which here are bone-shaped dog tags, held in place by three pins 1710.
  • Fig. 18A is a perspective view of the product container assembly
  • Fig. 18B is a front view
  • Fig. 18C is a top view.
  • a robotic transport mechanism such as the one described above in association with Figs. 6-8, may be equipped with a robotic head unit 66 and end effector 70 that are configured to interface with shuttles 1708.
  • a mechanical implement such as mechanical implement 82 described above may interface with the hole in each shuttle 1708, pull the shuttle open as described in Figs. 8A-8C, and expose a single product 1706.
  • Suction cups 80 associated with end effector 70 may then grasp the product 1706 with vacuum pressure, lift the product out of shuttle 1708, and transport the product 1706 to substrate 2 for placement and alignment on the transfer media.
  • shuttle 1708 may be configured to automatically close (such as via a spring-loaded mechanism), and then drop the next product 1706 into the shuttle well for a future task. In other embodiments, the shuttle 1708 may not automatically close, and may be closed by the robotic transport mechanism via interface with mechanical implement 82.
  • pins 1710 may be movable and/or removable with respect to product container 1704.
  • products 1706 may be reloaded from the top either manually by a clerk or automatically, by the robotic transport mechanism via suction cups 80.
  • pins 1710 are removable, particularly the pins proximal to shuttle 1708, a stack of products 1706 may be loaded into product container 1704 from the front.
  • pins 1710 and/or product container 1704 itself may contain springs or other flexible elements that may allow end effector 70 to "open" and/or reload the product container 1704 without fully removing the pins 1710.
  • Figs. 19A-19C are detailed views of an accessory container 1712 as described above.
  • accessory container 1712 is filled with a stack of boxed accessories 1714, held in place by six pins 1716.
  • Fig. 19A is a perspective view of the accessory container assembly
  • Fig. 19B is a front view
  • Fig. 19C is a top view.
  • the robotic transport mechanism described above may be configured to interface with the accessory container 1712.
  • Suction cups 80 associated with end effector 70 may grasp an individual accessory 1714 with vacuum pressure, lift the accessory out of accessory container 1712, and transport the accessory 1714 to a desired location.
  • accessory 1714 may be transported to locations within vending apparatus 500, such as substrate 2 or cooling plate 1200.
  • the accessory 1714 may be transported directly to an area where it may be accessed by a user, such as delivery opening 54.
  • pins 1716 may be movable and/or removable with respect to accessory container 1712.
  • accessories 1714 may be reloaded from the top either manually by a clerk or automatically, by the robotic transport mechanism via suction cups 80.
  • a stack of accessories 1714 may be loaded into accessory container 1712 from the front.
  • pins 1716 and/or accessory container 1712 itself may contain springs or other flexible elements that may allow end effector 70 to "open" and/or reload the accessory container 1712 without fully removing the pins 1716.
  • Inventory system 1700 may thus be configured to substantially automate the inventory management process for each individual vending apparatus 500. Deployment of system 1700 saves time and resources, particularly when augmented with additional features.
  • end effector 70 of an associated robotic transport mechanism may be equipped with vision sensors as described above.
  • end effector 70 and an associated control (not shown) may be configured to track the inventory levels of the various products 1706 and accessories 1714 within each product container 1704 and accessory container 1712, respectively.
  • a "home position" for the particular container may be registered by the sensor(s) associated with end effector 70.
  • This home position would in essence be the "top" of the container, and would equate to the container being full.
  • the control may then be configured to know the unit vertical height of each product 1706 or accessory 1714 within the container.
  • a given accessory container 1712 may house boxed luggage tag holders whose boxes are each 0.5" high.
  • End effector 70 may translate within the robotic transport mechanism until it finds the home position for that particular accessory container 1712.
  • Robotic head 66 may then translate vertically downwards in the Z-direction until the sensor(s) associated with end effector 70 detect the presence of the top of a box.
  • inventory system 1700 may be configured to automate at least three major functions of the vending apparatus 500 supply chain. First, inventory system 1700 enables vending apparatus 500 and associated user interface device 50 to know that a particular product or accessory is out of stock before an attempt is made to retrieve the out- of-stock item from its storage container. As discussed in further detail below in association with Figs. 25-37, inventory system 1700 may be configured to alter the information displayed to a user via the user interface device relating to out-of-stock products.
  • the item may be "grayed out" on the selection interface presented on display screen 52, or may otherwise indicate that the item is not available, and the user may be directed to select another item.
  • user interface device 50 may be configured to display other related information. For example, purchase of the item may be limited to an amount less than or equal to the inventory count remaining within the particular storage container, as detected by inventory system 1700.
  • the user interface may be configured to offer a discount on low-stock items, in the manner of a "sale” or "clearance.”
  • a second function of inventory system 1700 is that inventory levels can be tracked automatically, and resources can be saved by preventing unnecessary refill trips by a human worker.
  • the robotic transport mechanism control in conjunction with user interface device 50, may be programmed such that a given inventory level triggers a refill visit.
  • This threshold inventory level may be calculated on the basis of a single product container 1704 or accessory container 1712 (i.e., "refill me when inventory reaches 20% of full") up to the level of the entire vending apparatus 500 (i.e., "make a service visit when the average inventory level of all containers reaches 50%").
  • User interface device 50 may be configured to send information relating to inventory to a remote server, such as a server associated with the retail establishment hosting apparatus 500, a server associated with the manufacturer of apparatus 500, or another third party server.
  • a remote server such as a server associated with the retail establishment hosting apparatus 500, a server associated with the manufacturer of apparatus 500, or another third party server.
  • the information may be sent regularly on a set schedule, including but not limited to hourly, daily, weekly, monthly, quarterly, semi-annually, or annually.
  • the information may be sent on an as-needed basis; for example, when one or more of the threshold levels described above are reached.
  • a user operating one or more of the remote servers described above may be capable of accessing user interface device 50 or a remote server containing the information, and may affirmatively check the inventory status of apparatus 500 and its equipped containers.
  • inventory system 1700 can substantially reduce time and hassle for a human service operator.
  • the embodiments described above remove the necessity for a human operator to disable apparatus 500 and manually count the number of products 1706 and/or accessories 1714.
  • the refilling process can be expedited further by providing set declinations of refill products 1706/accessories 1714; for example, a pack of 25 of the boxed luggage tag holder accessories described in the example above.
  • a human operator may simply wait to refill the particular accessory container 1712 for the luggage tag holder accessory until 25 of them have been removed and sold from apparatus 500.
  • user interface device 50 may be configured to compile an inventory report based on information relating to inventory gathered by inventory system 1700, and display it on demand to the human service operator.
  • the report may be displayed, for example, on display screen 52, or printed via an optional receipt printer associated with user interface device 50 described above.
  • the efficiency of visits to the vending apparatus 500 by a human service operator may be even further increased, by allowing an instant report of what products need to be replaced and/or replenished. Inventory system 1700 can thus reduce downtime for apparatus 500, minimize hassle to the service operator and the retail establishment, and enhance revenue.
  • a third function and benefit of inventory system 1700 is that it can assist with replenishment and management operations further up the supply chain.
  • a warehouse or other such storage facility affiliated with the human service operator may contain known amounts of products or accessories for deployment in one or more vending apparatuses 500 in a given geographical region.
  • individual inventory systems 1700 in each vending apparatus 500 may send information to a server as discussed above that prompts action by a human service operator, such as a replenishment visit.
  • the server may be configured to compile information received from multiple vending apparatuses 500, including inventory levels, for purposes of determining inventory needs at the regional level.
  • the server may automatically place an order with a supplier for replenishment of the particular product or accessory.
  • a predetermined level of inventory for example, the server may automatically place an order with a supplier for replenishment of the particular product or accessory.
  • multiple points of a supply chain can be automated and processed in a far more efficient and cost-effective manner thanks to the capability of a network of vending apparatuses 500 to self-determine and report their own levels of inventory.
  • apparatus 500 and an associated inventory system 1700 may be configured to sublimate and dispense small objects, such as jewelry or other custom items, that do not lend themselves readily to the stacked arrangement discussed in association with Figs. 17-19.
  • a product container 1704 may be configured to store a product containing multiple such items.
  • the items need not be identical, and different shaped items may be etched within a common product.
  • the multi- item product may be comprised of any sublimatable material described previously, including metals, plastics, or wood.
  • the multi-item product may be pre-printed with a background image or pattern, such as suggested above in association with Fig. 9. In other embodiments, the products may simply be blank.
  • the "pieces" within the multi-item product may be etched into the product by any suitable means known to those of skill in the art.
  • Fig. 20A illustrates such a multi-item product for a set of heart-shaped charms, such as those that may be associated with popular charm bracelets.
  • six identical hearts are etched into a 3.5" by 2.5" product that is 0.32" thick.
  • Fig. 20B illustrates a product with four puzzle pieces etched into it; the entire product itself may then be sublimated with an image and can serve as the completed puzzle.
  • FIG. 20C illustrates a charm bracelet pattern similar to that shown in Fig. 20A, but with circular charms rather than heart-shaped charms.
  • Fig. 20D illustrates an irregularly-shaped embodiment, with an irregular product split into two pieces of puzzle piece-shaped jewelry.
  • the multiple items may be sublimated with the same image; for example, six individuals attending the same event can have identical charms/items as souvenirs of the event.
  • the multiple items may be sublimated with different images. For example, a consumer may have the opportunity to essentially make a charm bracelet from scratch with multiple different charms sublimated substantially simultaneously with a variety of different images.
  • multi-item product embodiments described in association with Figs. 20A-20D
  • additional features may be included with the products to both increase efficiency within the apparatus 500 and/or add value for the consumer who customizes and purchases the item.
  • the multi-item product may have an embedded emery board or other such filing tool, in order to smooth the "edges" of the individual items once they are punched out of the product.
  • a filing tool may be included within apparatus 500 as a separate add-on accessory, housed within its own accessory storage container 1712.
  • the multi-item products may also include features that increase efficiency and accuracy within the apparatus 500 for the sublimation process. For example, in the charms illustrated in the examples of Figs.
  • the holes in the individual items serve as attachment interfaces for the jewelry items, but they may also be usable as alignment tools or reference points for vision system 1002 within apparatus 500; essentially serving as extra fiducial markers 1004. There may be additional holes, marks, fiducial markers, etc. on the product or on any of its incorporated items that may be detectable by vision system 1002.
  • Figs. 21A-21D describe additional features relating to vision system 1002 and fiducial markers 1004 in detail.
  • Fig. 21 A is a diagram illustrating different types of fiducial markers 1004 that may be recognizable by vision system 1002.
  • a product 1706 such as those illustrated in Figs. 17-18, is aligned on a sheet of transfer media 92 on substrate 2.
  • a local fiducial marker 2102 may be associated with one or more of product 1706 or transfer media 92.
  • This subtype of fiducial marker 1004 may be associated with individual types of sublimatable products, and may assist with precise, accurate alignment of a particular product 1706.
  • a second subtype of fiducial marker 1004 illustrated in Fig. 21 A is panel fiducial marker 2104.
  • the panel fiducial marker 2104 may be permanently disposed on substrate 2, and may send information to vision system 1002 to assist with proper alignment of the transfer media 92 on the substrate 2.
  • a panel fiducial marker 2104 may assist the automated printer assembly 1600 discussed above in accurately transporting the transfer media 92 from a printer 60 (not shown) to substrate 2.
  • a third subtype of fiducial marker 1004 is a global fiducial marker 2106.
  • Global fiducial marker 2106 may be printed on the transfer media 92 by printer 60 to further assist with alignment of the transfer media 92 and/or product 1706 on substrate 2.
  • fiducial markers 2102, 2104, and 2106 are depicted as circles in Fig. 21 A, the fiducial markers may be represented as any shape or pattern.
  • Example fiducial markers are shown in Fig. 21B. In some embodiments, it may be advantageous to differentiate the size, shape, color, or other property of different types of fiducial markers 1004, or fiducial markers of the same type associated with different items, such as different types of products 1706.
  • Vision system 1002 and fiducial markers 1004 may be used in some embodiments to assist an associated robotic transport mechanism within an apparatus 500 to faithfully retrieve products 1706 and/or accessories 1714 from their respective storage containers.
  • a shuttle 1708 associated with a product container 1704 (not shown) is in the open position.
  • a single product 1706 (here, illustrated as a luggage tag) is presented to the robotic transport mechanism for retrieval.
  • a local fiducial marker 21 14 may be disposed on the surface of shuttle 1708. Fiducial marker 21 14 may serve several purposes in the scenario depicted in Fig. 21C, as well as the similar scenario presented in Figs. 8A-8C and 18A-18C.
  • fiducial marker 21 14 may assist a sensor associated with end effector 70 of the robotic transport mechanism in gauging its global position with respect to the shuttle 1708 and the product 1706.
  • robotic head 66 may be able to adjust the position of end effector 70 in the X, Y, and/or Z directions based on coordinates read from fiducial marker 21 14.
  • fiducial marker 21 14 may allow for finer scale adjustments once end effector 70 is in range of product 1706.
  • end effector 70 may be configured to pick up product 1706 at "ideal" location 2108 with suction cup(s) 80.
  • Location 2108 may be a known lateral distance from fiducial marker 21 14, and marker 21 14 may be disposed at a known orientation.
  • fiducial marker 21 14 may contain other information specific to the product 1706 being presented, such as its size, shape, color, or the material which comprises it. This is intended to be a non-limiting list of possible information, and fiducial marker 21 14 may contain more or less information in any particular embodiment.
  • fiducial markers are displayed in the context of placement of a product 1706 on a piece of transfer media 92 aligned on substrate 2.
  • sensors associated with end effector 70 and vision system 1002 may use two types of fiducial markers 1004 for placement of product 1706.
  • Transfer media 92 may have target local fiducial markers 21 16 printed on opposing corners of the media.
  • End effector 70 and vision system 1002 may read the positions of fiducial markers 21 16 and intelligently adjust for any offsets or variations in the positioning or alignment of transfer media 92 on substrate 2. Proper alignment is essential in order for successful sublimation of high-quality printed images onto product 1706.
  • a global fiducial marker 21 18 may be disposed on the surface of substrate 2 itself to allow for coarser measurement.
  • the examples illustrated here in Figs. 21A-21D are intended to be non- limiting, and one of skill in the art may contemplate any number of uses for fiducial markers 1004 readable by vision system 1002 within a system environment consistent with disclosed embodiments.
  • Fig. 22 is a cutaway view of apparatus 100, showing additional detail relating to clamping system 12.
  • clamping system 12 further comprises two clamps 2206, with multiple bolts 2208 disposed within each of the two clamps.
  • Other components of the system include solenoid(s) 2204 and solenoid power source 2202. The default position of clamps 2206 and bolts 2208 is fully clamped down.
  • clamping system 12 may be activated either manually or automatically to elevate clamps 2206 with sufficient clearance to insert at least a portion of the transfer media underneath.
  • clamping system 12 may be activated automatically via signals sent by sensors, such as sensors 1 102 and/or 1 106.
  • the sensors may be associated with a printer assembly, such as printer assembly 1600, or may be associated solely with substrate 2.
  • power source 2202 may provide power to solenoid(s) 2204.
  • Solenoids 2204 then may provide force sufficient to elevate bolts 2208 and propel them upward relative to substrate 2. As bolts 2208 rise, they also may raise clamps 2206 a sufficient vertical distance to insert a sheet of transfer media underneath.
  • Substrate 2 may be configured with one or more sensors, such as sensors 1 102 and/or 1 106, to recognize when the transfer media is properly placed and/or aligned, and clamping system 12 may be deactivated.
  • vision system 1002 may recognize fiducial markers such as fiducial markers 1004 on substrate 2 and/or the transfer media to confirm successful alignment, as discussed above in association with Fig. 21. Once proper alignment is confirmed, solenoid power source 2202 may reverse the direction of the solenoid 2204 force, and bolts 2208 may return to their default position. As this process proceeds, clamps 2206 return to their default clamped position, and the transfer media is secured to substrate 2.
  • Fig. 23 is an additional cutaway view of apparatus 100, showing additional detail relating to an embodiment incorporating a hydraulic system.
  • hydraulic pump 20 is shown in the center of apparatus 100.
  • Hydraulic pump 20 receives inputs of electrical power and water/fluid (not shown) to generate pressure and force necessary to complete the process of bringing substrate 2 and heating platen 4 into contact.
  • Force generated by hydraulic pump 20 is transferred to hydraulic actuator 22.
  • hydraulic actuator 22 As hydraulic actuator 22 extends upward, it may contact the underside of press ram 24, which comprises press plate 2304 and spring bed 2302.
  • Spring bed 2302 may include springs of a known spring constant comprised of any suitable material, including steel, aluminum, plastic, ceramic, etc.
  • the springs comprising spring bed 2302 may additionally be coated with a protective layer, such as neoprene, rubber, latex, etc.
  • Press ram 24 may contact the underside of substrate 2 once substrate 2 has been translated into position atop the press ram via linear motion stage 14.
  • hydraulic actuator 22 Upon completion of a thermal cycle of heating platen 4 of predetermined duration, hydraulic actuator 22 reverses its force and retracts to its original position.
  • FIG. 24A is detailed diagrammatic illustrations of an example end effector 70 equipped with added camera and sensor features as described above.
  • an end effector 70 is shown interacting with a stack of products 1706 in an embodiment involving inventory system 1700 as described previously.
  • the end effector 70 illustrated in Fig. 24A is equipped with a camera 2404 and a sensor 2406.
  • Camera 2404 when associated with an end effector 70, may be configured to recognize, detect, and/or read fiducial markers, barcodes, or any other such machine-readable information within field of view 2402.
  • the machine-readable information may include fiducial markers such as those described above in association with Figs. 10- 1 1 and 17-21.
  • end effector 70 may be positioned by a robotic control (not shown) such that a fiducial marker associated with a particular storage container within vending apparatus 500 is within field of view 2402.
  • Camera 2404 may visualize the fiducial marker and read its information, such as information related to inventory count, and then end effector 70 may transmit the information to the control, to user interface device 50, or any other related system within or outside of vending apparatus 500.
  • Camera 2404 and field of view 2402 may also be configured as discussed previously for other functions related to end effector 70, such as registration in the X and Y directions, and for fine motor control.
  • end effector 70 may pick up a single product 1706 using suction cups 80 as described above in association with Figs. 8 and 18.
  • Camera 2404 may use various fiducial markers as described in association with Fig. 21 to assist in precise retrieval of product 1706 and delivery to another location, such as substrate 2.
  • end effector 70 also includes a sensor 2406 configured to operate within an inventory management system 1700 as discussed above.
  • sensor 2406 may be configured to allow an associated control and/or computer system (not shown) to calculate the height of a stack of products 1706 via laser beam 2408 for purposes of determining inventory levels of that product.
  • sensor 2406 may utilize infrared technology instead of a laser beam 2408.
  • sensor 2406 may be a contact sensor that can physically detect the height of products 1706 within a storage container by touch.
  • sensor 2406 may be associated with or may be coextensive with a mechanical implement 82 included with end effector 70 (not shown in Figs. 24A-24B).
  • Fig. 24B illustrates an alternative embodiment of Fig. 24A.
  • sensor 2406 is mounted at a slightly higher physical location on end effector 70, and is additionally mounted at an angle instead of parallel to the base of end effector 70.
  • laser beam 2408 (or other such technology, as discussed above) may be configured to detect contact a location on the top of a stack of products 1706, rather than an edge as shown in Fig. 24A.
  • Fig. 24C is a side view of Fig. 24B.
  • Fig. 24C additionally includes a mechanical implement 82, which may be disposed near the front of end effector 70 as shown to interface with a shuttle 84 or shuttle 1708 of a storage container as described previously in association with Figs. 8 and 17-19.
  • mechanical implement 82 may be configured as discussed above to serve as a contact sensor for use in determining inventory levels within an inventory management system 1700.
  • Figs. 25-37 are example graphical user interfaces (GUIs) that may be provided by the disclosed embodiments to facilitate interaction with a user.
  • GUIs graphical user interfaces
  • user interface device 50 of a vending apparatus 500 may display the GUIs to the user via display screen 52.
  • Fig. 25 is an example GUI that may be configured to initiate contact with a user and allowing language selection.
  • Fig. 26 is an example GUI that may be configured to assist a user in selecting one of a plurality of different types of products to be sublimated.
  • the different options illustrated as square boxes in Fig. 26 such as "Jewelry” and "Gifts" may be operable as touchscreen buttons, or may be selectable using an optional mouse/trackball and/or keyboard associated with user interface device 50.
  • Fig. 27 is an example GUI that may be configured to assist a user in selecting a further subtype of the product.
  • the user is given the choice of a luggage tag, a military dog tag, or a bone-shaped pet tag.
  • Different embodiments of vending apparatus 500 may display different options for selection based on the current configuration and inventory levels of one or more storage containers that may be associated with apparatus 500. For example, in the illustration of Fig.
  • circle tags and paw-shaped tags are displayed in a manner indicating to the user that they are "out of stock.” In some embodiments, this display may indicate that vending apparatus 500 contains no storage containers configured to dispense these products, and thus they are not available at all for purchase via that particular vending apparatus 500. In other embodiments, storage containers configured to dispense the circle tags and paw tags may be present within inventory system 1700 and vending apparatus 500, but end effector 70 may determine via sensor 2406 as described above that the inventory for those items is depleted. Upon detection that a storage container associated with an item is empty, inventory system 1700, via associated controls and/or computer systems, may initiate changes to the GUI shown to a user to indicate than an item is no longer available, as shown in Fig. 27.
  • Figs. 28-33 are example GUIs that may be configured to walk a user through the process of selecting customized images or text to be sublimated onto a product, such as a product 1706.
  • Vending apparatus 500 may provide a variety of different options for customization depending on a number of factors, such as the time of year, location of the apparatus, business agreements, or other such criteria. Images and text available for customization may be stored locally within user interface device 50 as described previously, or may be accessible by user interface device 50 over a network connection.
  • Fig. 34 is an example GUI that may be configured to assist the user in confirming quantities and pricing of customized products.
  • inventory system 1700 may be configured to provide information to user interface device 50 to assist in the configuration and presentation of the quantities shown in the GUI of Fig. 34.
  • the GUI of Fig. 34 may not permit selection of a quantity more than four.
  • the GUI may be configured to display the locations of other nearby vending apparatuses 500, or may have the items produced at a remote location and shipped to the user.
  • user interface device 50 may be configured as discussed previously to provide discounts to the user based on the quantity of products ordered. For example, one luggage tag may be $ 1.00 as shown in Fig. 34, but three tags may be available at a discounted price of $2.50 instead of the unit price of $3.00.
  • Fig. 35 is an example GUI that may be configured to assist the user in selecting optional accessories to accompany a sublimated product.
  • the product to be sublimated is a luggage tag, so accessories presented to the user include a cable connector and/or a beaded chain for the tag.
  • Different accessories may be displayed in the GUI for Fig. 35 depending on the product selected and based on the inventory of accessory storage containers within vending apparatus 500, as determined by inventory management system 1700.
  • the different options illustrated as square boxes in Fig. 35 may be operable as touchscreen buttons, or may be selectable using an optional mouse/trackball and/or keyboard associated with user interface device 50.
  • Fig. 36 is an example GUI that may be configured to facilitate payment for one or more customized products and/or accompanying accessories.
  • the GUI may be configured to show the purchased items to allow for review of the purchase by the user.
  • the GUI may be further configured to allow the customer to remove purchases from the order, or to add additional purchases.
  • the GUI may be configured to assist the user in processing payment for the order, such as via credit card.
  • the user may be prompted to additional details after swiping a credit card in a receptacle associated with user interface device 50 via the GUI of Fig. 36, or in embodiments where no such receptacle is present, the GUI may be configured to receive input of a credit card number and related information. As shown in Fig.
  • the system may be configured to receive additional information, such as a promotional code, customized message, or other information.
  • additional information such as a promotional code, customized message, or other information.
  • a GUI such as that illustrated in Fig. 37 may be displayed, confirming successful payment and informing the user that the sublimation task is in progress.
  • the systems and apparatuses contemplated by the disclosed embodiments allow consumers to create personalized products on demand in a more accessible, flexible, and efficient manner than ever before.
  • the system can be operated automatically by a completely untrained operator, and most importantly, can be operated in a safe manner with all potentially hazardous components enclosed in a protective housing.
  • the apparatus takes full advantage of digital technology, allowing all manners of contemporary image acquisition, processing, and social media integration.
  • the apparatus presents a vast array of new products and market opportunities, with minimal inputs of labor, training, and inventory management.
  • the apparatus can be individually configured and customized for the needs of a given user or application. Aspects of the apparatus design revolutionize the sublimation process, and allow faster, more productive marketing of sublimated products with less wear on the machine components.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Electronic Switches (AREA)
  • Accessory Devices And Overall Control Thereof (AREA)
  • Thermal Transfer Or Thermal Recording In General (AREA)
  • Decoration By Transfer Pictures (AREA)

Abstract

La présente invention se rapporte à un appareil intégré et sûr d'impression à transfert par sublimation d'encre. L'appareil est configuré pour imprimer une ou plusieurs images sur un support de transfert, puis pour aligner le support de transfert sur un substrat. Un produit sélectionné pour recevoir l'image sublimée est positionné sur le support de transfert, et l'appareil amène le support de transfert et une ou plusieurs plaques chauffantes en contact pour sublimer l'image. La plaque chauffante est configurée pour sublimer un ou plusieurs côtés opposés d'un produit sensiblement en même temps dans un même cycle thermique. Selon certains modes de réalisation, l'appareil peut être incorporé dans un distributeur automatique totalement fermé pour fournir des accessoires et des produits sublimés personnalisés sur demande pour un consommateur.
EP14744246.1A 2013-07-25 2014-07-08 Procédé et appareil modulaire d'impression à transfert par sublimation et appareil de distribution Active EP3024652B1 (fr)

Applications Claiming Priority (7)

Application Number Priority Date Filing Date Title
US13/951,196 US9731534B2 (en) 2013-07-25 2013-07-25 Automated simultaneous multiple article sublimation printing process and apparatus
US13/951,175 US9120326B2 (en) 2013-07-25 2013-07-25 Automatic sublimated product customization system and process
US13/951,127 US9333788B2 (en) 2013-07-25 2013-07-25 Integrated sublimation transfer printing apparatus
US13/951,150 US10011120B2 (en) 2013-07-25 2013-07-25 Single heating platen double-sided sublimation printing process and apparatus
US201361911928P 2013-12-04 2013-12-04
US14/261,202 US9403394B2 (en) 2013-07-25 2014-04-24 Modular sublimation transfer printing apparatus
PCT/US2014/045719 WO2015013025A2 (fr) 2013-07-25 2014-07-08 Appareil modulaire d'impression à transfert par sublimation

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CN108464553B (zh) * 2018-03-13 2020-06-02 上海酷禾网络科技有限公司 一种全自动自助图案定制成衣设备及方法

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CA1335329C (fr) * 1988-09-06 1995-04-25 Donald C. Berghauser Transfert sur des chopes de ceramiques et objets similaires d'images produites par des imprimantes thermiques
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CA2918962A1 (fr) 2015-01-29
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WO2015013025A3 (fr) 2015-04-02

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