A recording device includes a recording unit (printing unit) configured to perform recording on a medium, a transporting belt having a support face configured to support the medium, and configured to transport the medium, a heating unit configured to heat the support face, and an adjustment mechanism configured to adjust a distance between the support face and the heating unit to a first distance and to a second distance that is greater than the first distance, wherein the adjustment mechanism moves the heating unit away from the support face such that the distance is changed from the first distance to the second distance.

Embodiments provide for systems and methods related to kiosks for personalizing a packaged article. The kiosks may also be used for storage, inventory management, retrieval, packaging, and/or personalization of packaged articles. The kiosks discussed herein differ from non-kiosk personalization systems, such as personalization systems installed on a factory or warehouse floor, in that the kiosks are self-contained personalization systems. In some embodiments, the kiosks are portable and can be moved between different sites or events. This portability allows the kiosks to personalize packaged articles for concerts, festivals, conventions, trade shows, and the like.

It is hereby disclosed a method to print on porous substrate by a printer comprising: a print zone; a conveyor to receive a porous substrate on a loading zone and to move the porous substrate along a transport direction between the print zone and the loading zone; a print engine positioned on the print zone for ejecting printing fluid towards the porous substrate; wherein the method comprises ejecting printing fluid towards a front side the porous substrate and, by a controller, activating a vacuum source as to exert a vacuum on a back side of the porous substrate being the vacuum exerted while the porous substrate is within the print zone.

A printing device includes a liquid ejecting unit configured to eject a liquid and perform printing on fiber to be transported, and a supply flow path for supplying a liquid accommodated in a liquid accommodating body to the liquid ejecting unit. Furthermore, the printing device includes a selection unit configured to enable a user to select a finished state of the printed fiber in advance, and a control unit. The control unit is configured to control a control target so as to match a condition corresponding to the finished state specified by the selection unit.

A conveyance control device includes a processor and a memory. The processor is configured to control a conveyor. The conveyor is configured to convey a platen from a conveyance start position of the platen to one of a plurality of printers via a pretreatment device. The pretreatment device is configured to perform pretreatment on a recording medium placed on the platen. The conveyor is configured to convey the platen to one of a first lane including a first printer group formed of a plurality of the printers or a second lane including a second printer group formed of a plurality of the printers. The memory stores computer-readable instructions that instruct the processor to perform determination processing of determining whether to convey the platen to the first lane or to convey the platen to the second lane, based on the recording medium placed on the platen.

A platen conveyance device includes a first conveyance path, a platen supporter, a second conveyance path, and a positioner. The first conveyance path is configured to convey a platen to a pretreatment device. The platen supporter is configured to support the platen conveyed by the first conveyance path. The second conveyance path is provided with the platen supporter. The second conveyance path is configured to convey the platen supporter to a printer. The positioner is configured to position the platen supported by the platen supporter at a prescribed printing position in a first direction in a horizontal direction.

A white ink jet ink composition including hollow resin particles, resin particles, and water, in which a glass transition temperature of the hollow resin particles is 120° C. or higher, and a glass transition temperature of the resin particles is 5° C. or lower.

A transport system includes a transport device and a peeling device. The transport device includes: a transporting belt including an adhesive layer and configured to transport a medium affixed to the adhesive layer; a heating unit configured to be able to heat the adhesive layer; a driving unit configured to drive the transporting belt; and a control unit including a detector configured to detect a load of the driving unit, the control unit being configured to control the driving unit and the heating unit. The peeling device is configured to peel the medium from the transporting belt. The detector is configured to be able to detect the load of the driving unit when the medium is peeled from the transporting belt by the peeling device, and the control unit controls the heating unit on the basis of a detection result from the detector.

Apparatus for picking a garment having a front and a back and placing the garment over a pallet such that the front and the back of the garment are on the front and the back sides respectively of the pallet. The apparatus comprises a picking arm to approach the garment and then withdraw towards the pallet; and one or more adherence locations on the picking arm, the adherence location being smaller than the first side, the adherence location for contacting the garment using sticky material and causing adherence of the garment via the sticky material at the contact location, thereby causing the picking arm to pull the front of the garment over the front of the pallet, the back of the garment sliding under the first side onto the back of the pallet.

Example implementations relate to substrate porosity determination. Some examples refer to a substrate porosity determination comprising an image capture device a controller to obtain a reference image by the image capture device; obtain a measurement image after a printing operation has been performed on a substrate located over the image capture device; compare the reference image and the measurement image—determine whether the substrate is porous based on the comparison; and determine a print parameter based on the determination of whether the substrate is porous.